EDGAR 10-K Filing

Company CIK: 1325964
Filing Year: 2025
Filename: 1325964_10-K_2025_0001079973-25-000420.json

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ITEM 1. BUSINESS
Item 1. Business.
Overview
Lightwave Logic, Inc. is a technology platform company leveraging its proprietary engineered electro-optic (EO) polymers, named Perkinamine® to transmit data at higher speeds with less power in a small form factor. The Company’s high activity and high stability organic polymers allow it to create next-generation photonic EO devices that convert data from electrical signals into light/optical signals for applications in telecommunications, and for data transmission potentially used to support generative AI.
Our differentiation at the modulator device level is in higher speed, lower power consumption, simplicity of manufacturing, small footprint (size), and reliability. We have demonstrated the electro-optic polymers potential for higher speed and lower power consumption in packaged devices, and during 2024, we continued to make advances in techniques to translate our world class material properties to efficient, reliable modulator devices with commercial foundries. We are currently focused on: a) working with potential and existing customers to integrate our proprietary materials into our customers’ specific PIC and device architecture; b) testing and demonstrating the superior performance, simplicity of manufacturability and reliability of our devices, including in conjunction with the silicon photonics manufacturing ecosystem; and c) providing our potential and existing customers with the proper Process Development Kits (PDKs) to enable the efficient and fast integration of our materials into their own design and manufacturing plans. Silicon-based foundries are semiconductor fabrication plants developed for the electronics IC business, that are now engaging with silicon photonics to increase their wafer throughput. Partnering with silicon-based foundries not only demonstrates that our polymer technology can be transferred into standard production lines using standard equipment, it also allows us to efficiently utilize our capital. The foundry partnerships will allow us to scale our high-performance polymer optical engines quickly and efficiently. We have now received silicon wafers that range up to 200mm in diameter, which aligns well with foundry manufacturing.
Our extremely strong and broad patent portfolio allows us to optimize our business model in three areas: 1) Traditional focus on polymer materials development, 2) Patent licensing and 3) Technology transfer to foundries. We are continually looking to strengthen our patent portfolio both by internal inventions and acquisition of intellectual property.
We are initially targeting applications in fiber optic data communications and telecommunications markets, in particular ultra-high bandwidth optical connections deployed inside and between datacenters and/or AI clusters. In addition, we are exploring other applications that include automotive/LIDAR, sensing, displays, storage, aerospace and defense, satellites, quantum computing etc., for our polymer technology platform. Our goal is to have our unique polymer technology platform become ubiquitous across multiple market verticals over and above the optical fiber optic communications markets.
Artificial Intelligence (AI) has been integrating deeper within our daily activities with applications to make us more efficient and possibly smarter. The impact on the internet is huge, and the internet is based on an optical network that utilizes data centers to route and switch traffic or information to and from destinations. Data centers are being upgraded today in a fashion that the industry has not seen before with significant investments of capital. The expected demands of increased traffic, information, and data driven by AI is changing the way the internet is being operated. AI is now creating new and interesting market opportunities to upgrade the internet. Three of these opportunities are important today: density, speed, and low power and these are very well aligned with our high performance electro-optic polymers modulator platform. We are designing high performance polymer modulator optical engines to support the rise and growth of AI as it generates more information that will travel through the internet and optical network. While we are not directly an AI company designing electronic processors, we do see immediate benefits of enabling higher levels of information to cross the internet using our optical polymer modulator platform.
Unless the context otherwise requires, all references to the “Company,” “we,” “our” or “us” and other similar terms means Lightwave Logic, Inc. Also, this Form 10-K Annual Report includes the names of various government agencies and the trade names of other companies. Unless specifically stated otherwise, the use or display by us of such other parties’ names and trade names in this report is not intended to and does not imply a relationship with, or endorsement or sponsorship of us by, any of these other parties.
Commencement of Commercial Operations
We commenced commercial operations in May 2023. Presently, our commercial operations consist of a material supply license agreement to provide Perkinamine® chromophore materials for polymer based photonic devices and photonic integrated circuits (PICs). The license agreement represents tangible commercial progress for electro-optic polymers as part of our Company's business plan. Our Company is also in various stages of new materials development and evaluation with potential customers and strategic partners. We expect to continue to obtain a revenue stream from technology licensing agreements, and to obtain additional revenue streams from technology transfer agreements and direct sale of our electro-optic materials. We have seen increased interest in our materials during 2024, driven by the need for higher speed connections to scale the AI-enabled network infrastructure and we are in discussions on future license agreements. In December 2024, we made the decision to focus our commercial and R&D efforts on the EO Polymer materials development and manufacturing. Although we continue to develop full Photonic Integrated Circuits and packaged device designs as part of our internal technology and process development roadmap, we are not actively promoting the sale of such PICs and/or packaged devices to external customers, but rather EO Polymer materials supply and license agreements.
Materials Development
Our Company designs and synthesizes organic chromophores for use in its own proprietary electro-optic polymer systems and photonic device designs. A polymer system is not solely a material but also encompasses various technical enhancements necessary for its implementation. These include host polymers, poling methodologies, and molecular spacer systems that are customized to achieve specific optical properties. Our organic electro-optic polymer systems compounds are mixed into solution form that allows for thin film application. Our proprietary electro-optic polymers are designed at the molecular level for potentially superior performance, stability, and cost-efficiency. We believe our proprietary and unique polymers have the potential to replace more expensive, higher power consuming, slower-performance materials such as semiconductor-based modulator devices that are used in fiber-optic communication networks today.
Our patented and patent pending molecular architectures are based on a well-understood chemical and quantum mechanical occurrence known as aromaticity. Aromaticity provides a high degree of molecular stability that enables our core molecular structures to maintain stability under a broad range of operating conditions.
We expect our patented and patent-pending optical materials along with trade secrets and licensed materials, to be the core of and the enabling technology for future generations of optical devices, modules, sub-systems, and systems that we will develop or enable our partners to fully commercialize. Examples of our partners include: electro-optic PIC and device design and manufacturing companies, contract manufacturers, original equipment manufacturers, foundries, packaging and assembly manufacturers etc. Our Company contemplates future applications in market verticals that may address the needs of semiconductor companies, optical network companies, Web 2.0/3.0 media companies, high performance computing companies, telecommunications companies, aerospace companies, automotive companies, as well as for example, government agencies and defense entities.
Device Design and Development
Electro-optic Modulators
Our Company designs its own proprietary materials for electro-optical modulation devices. Electro-optical modulators convert data from electric signals into optical signals that can then be transmitted over high-speed fiber-optic cables. Our modulators are electro-optic, meaning they work because the optical properties of the polymers are affected by electric fields applied by means of electrodes. Modulators are key components that are used in fiber optic telecommunications, data communications, and data centers networks etc., to convey the high data flows that have been driven by applications such as pictures, video streaming, movies etc., that are being transmitted through the Internet. Electro-optical modulators are expected to continue to be an essential element as the appetite and hunger for data increases every year as well as the drive towards lower power consumption, and smaller footprint (size).
Current semiconductor photonic technology today is struggling to reach faster device speeds. Our modulator devices, enabled by our electro-optic polymer material systems, work at extremely high frequencies (wide bandwidths) and possess inherent advantages over current crystalline electro-optic material contained in most modulator devices such as bulk lithium niobate (LiNbO3), indium phosphide (InP), silicon (Si), and gallium arsenide (GaAs). Our advanced electro-optic polymer platform is creating a new class of modulators that can be easily integrated into various PIC platforms and can address higher data rates in a lower cost, lower power consuming manner, smaller footprint (size) with much simpler data encoding techniques. Our electro-optic polymer material will boost the performance of standard PIC platforms such as silicon photonics and indium phosphide.
Our electro-optic polymers can be integrated with other materials platforms because they can be applied as a thin film coating in a fabrication clean room such as may be found in semiconductor foundries using standard clean room tooling. These approaches enable our device platforms to not only be competitive but fully integrated with foundries. Our polymers are unique in that they are stable enough to seamlessly integrate into existing CMOS, Indium Phosphide (InP), Gallium Arsenide (GaAs), and other semiconductor manufacturing lines. Of relevance are the integrated silicon photonics platforms that combine optical and electronic functions. These include a miniaturized modulator for ultra-small footprint applications in which we term the Polymer Slot™. This design is based on a slot modulator fabricated into semiconductor wafers that can include either silicon or indium phosphide.
Our Company has a fabrication facility in Colorado to apply standard fabrication processes to our electro-optic polymers which create modulator devices. While our internal fabrication facility is capable of manufacturing modulator devices, we have partnered with commercial silicon-based fabrication companies that are called foundries who can scale our technology with volume quickly and efficiently. The process recipe for fabrication plants or foundries is called a ‘process development kit’ or PDK. We are currently working with commercial foundries to implement our electro-optic polymers into accepted PDKs by the foundries. One of the metrics for successful implementation of PDK is to receive working modulator chips.
Glossary
Glossary of select technology terms to provide you with a better understanding our Company’s technology and devices:
Electro-optic devices - Electro-optic devices convert data from electric signals into optical signals for use in communications systems and in optical interconnects for high-speed data transfer.
Electro-optic material - Electro-optic material is the core active ingredient in high-speed fiber-optic telecommunication systems. Electro-optic materials are materials that are engineered at the molecular level. Molecular level engineering is commonly referred to as “nanotechnology.”
Electro-optic modulators - Electro-optic (E/O) modulators are electro-optic devices that perform electric-to-optic conversions within the infrastructure of the internet. Data centers may also benefit from this technology through devices that could significantly increase bandwidth and speed while decreasing costs. Polymer E/O modulators can be designed and fabricated with multiple structures. The waveguides allow the light to be efficiently coupled into and out of the modulators, and provide a basis for integrating modulators together.
Gbaud - The rate of symbol changes in data transmission in billions of symbol changes per second. Each symbol can support one or more bits, the number of bits depending on the modulation format.
NRZ - See PAM2.
PAM2 - 2 level Pulse Amplitude Modulation, a modulation format in which the optical power in each symbol can assume either of two different levels, low or high, representing, respectively, a 0 or a 1. PAM2 supports 1 bit per symbol so the bit rate is equal to the baud rate or symbol rate. For example, a modulator capable of supporting 100 Gbaud can transmit 100 Gbps with PAM2 modulation. This modulation format is often called NRZ (Non Return to Zero).
PAM4 - 4 level Pulse Amplitude Modulation, a modulation format in which the optical power in each symbol can assume any one of 4 different levels. PAM4 supports 2 bits per symbol so the bit rate is equal to two times the baud rate or symbol rate. For example, a modulator capable of supporting 100 Gbaud can transmit 200 Gbps with PAM4 modulation.
PAM8 - 8 level Pulse Amplitude Modulation, a modulation format in which the optical power in each symbol can assume any one of 8 different levels. PAM4 supports 3 bits per symbol so the bit rate is equal to three times the baud rate or symbol rate. For example, a modulator capable of supporting 100 Gbaud can transmit 300 Gbps with PAM8 modulation.
Photonic Devices - Photonic devices are components for creating, manipulating, or detecting light. This can include modulators, laser diodes, light-emitting diodes, solar and photovoltaic cells, displays and optical amplifiers. Other examples are devices for modulating a beam of light and for combining and separating beams of light of different wavelength.
Polymers - Polymers, also known as plastics, are large carbon-based molecules that bond many small molecules together to form a long chain. Polymer materials can be engineered and optimized using nanotechnology to create a system in which unique surface, electrical, chemical, and electro-optic characteristics can be controlled. Materials based on polymers are used in a multitude of industrial and consumer products, from automotive parts to home appliances and furniture, as well as scientific and medical equipment.
Our Business Opportunity
Lightwave Logic, Inc. is developing our advanced electro-optical polymer material systems. Current legacy technology is based on inorganic crystalline materials, which has allowed for the proliferation of data over fiber optic cables. However, there are inherent molecular deficiencies that have prevented this technology from scaling down in price and up in functionality, especially in terms of $/Gbps. This is primarily due to a closed valence structure that does not allow for the molecular improvements. The valence or valency of an element is a measure of its combining power with other atoms when it forms chemical compounds or molecules. Also, the physical properties of a crystal do not allow for its implementation into highly miniaturize slot structures that are in simple terms the pathways that light travels through in the device.
Organic polymer materials have free electrons that allow for limitless potential to combine with other molecular structures, which allows for multiple options and combinations to improving performance characteristics. Importantly, because they can be applied to optical structures in thin-film liquid form, it is possible to imbue electro-optic ability to highly miniaturized slot structures. Organic polymer materials are also more economic to manufacture in comparison to growing exotic crystals that are prone to contamination and further must be sliced into thin wafers. Our Company believes that the combination of less expensive manufacturing cost, ease of application, and better scalability, together with a lower cost of ownership due to lower heat dissipation (requiring less cooling), will create enormous demand for our polymer material through supply agreements as well as polymer-based products.
Many companies’ early attempts at developing commercially reliable organic polymers were stymied due to the difficulty of creating organic molecules that could remain electro-optically active after being subjected to the high heat of semiconductor manufacturing temperatures (such as silicon CMOS, InP, GaAs etc.). These early attempts also encountered difficulty synthesizing materials that could withstand photochemical bleaching (loss of sensitivity to specific frequencies) and material degradation due to high operating temperatures.
Over the last several years, our Company has made various scientific breakthroughs that have allowed for the synthesis of proprietary organic polymer materials that can withstand extremely high process temperatures that exceed 175°C. Additionally, these materials have demonstrated photochemical stability in devices, even after being subjected to high intensity light for over 5,000 hours. These materials also exhibited stable electro-optic performance after being continuously aged at 85°C for over 12,000 hours. This exposure duration far exceeds industry standard stress conditions. These devices have performed with 3dB bandwidths that exceed 70GHz.
We are now further optimizing our electro-optic (EO) polymer materials platform to meet additional specifications that are beginning to be required by the fiber communications industry for applications such as networks running at data rates of 800Gbps and 1600Gbps and 3200Gbps in the future. Our technology platform has the capability and potential to address 4 or more channels of 400Gbps utilizing PAM4 encoding schemes, thus creating a roadmap of increased performance for the industry. Furthermore, we are collaborating with industry partners to optimize device designs and packaging. We have already made extensive progress with our polymer materials on this front, and now we are integrating our robust polymer materials onto an integrated photonics platform.
While our initial focus is to address data communications and telecommunications network applications along with cloud computing/data center needs, we believe that in the future we will have additional opportunities over and above AI to address other applications such as: chip-to-chip and backplane optical interconnects, photovoltaic cells, medical applications, satellite reconnaissance, navigation systems, radar applications, optical filters, spatial light modulators; and all-optical switches.
Electro-Optic Polymer Production - Our Approach vs. the BLA Approach
Our Electro-Optic Material Approach
Our core material expertise relates to the production of high-performance, high-stability electro-optic polymers for high-speed (wide bandwidth) telecommunication and data communications applications. More specifically, it lies in a less mainstream, yet firmly established, scientific phenomenon called aromaticity. Aromaticity causes a high degree of molecular stability. It is a molecular arrangement wherein atoms combine into multi-membered rings and share their electrons among each other. Aromatic compounds are stable because the electronic charge distributes evenly over a great area preventing hostile moieties, such as oxygen and free radicals, from finding an opening to attack.
Previous and Current Competitive Organic Electro-Optic Polymer Efforts
For the past several decades, diverse corporate interests, including, to our knowledge, IBM, Lockheed Martin, DuPont, AT&T Bell Labs, Honeywell, Motorola, HP, 3M, and others in addition to numerous universities and U.S. Government Agencies, have attempted to produce high-performance, high-stability electro-optic polymers for high-speed (wide bandwidth) telecommunication applications. These efforts were largely unsuccessful due, in our opinion, to the industry’s singular adherence to an industry pervasive engineering model known as the Bond Length Alternation ("BLA") theory model, which none of our patented molecular designs rely upon. The BLA model, like all other current industry-standard molecular designs, consists of molecular designs containing long strings of atoms called polyene chains. Longer polyene chains provide higher electro-optic performance, but are also more susceptible to environmental threats, which result in unacceptably low-performing, thermally unstable electro-optic polymers.
As a result, high frequency modulators engineered with electro-optic polymers designed on the BLA model or any other polyene chain design models are unstable over typical operating temperature ranges, and often exhibit performance degradation within days, hours or even minutes. Similarly, lower frequency modulators exhibit comparable failings, but to a lesser extent. These flaws, in most cases, have prevented commercial quality polymer-based modulators from entering the commercial marketplace. The thermal stability of these devices does not generally meet the minimum Telcordia GR-468 operating temperature range (-40 degrees Celsius to +85 degrees Celsius) much less the harsher MILSPEC 883D (military specification) range of -55 degrees Celsius to 150 degrees Celsius. While many new applications do not require meeting full military or Telcordia GR-468 specifications for polymers, many potential customers prefer to see polymer operate at or near these conditions to convey confidence in the material system. We understand from initial conversations with data center architects and designers that the temperature specifications that our materials achieve are compliant with their equipment design needs.
We are aware of other academic and commercial development efforts-some by larger companies with vastly more financial resources than we possess. However, we believe that no one yet has developed organic polymer materials that have demonstrated the combination of thermal stability, photochemical stability and reliability that can meet or exceed commercial specifications.
Our Electro-Optic Photonic P2IC™ Device Approach
Our electro-optic device designs are built around our proprietary organic polymer material systems that we believe will enable better performance than the current embedded legacy technology built around inorganic materials. We also believe that the inherent flexibility of being able to apply our organic polymer materials in liquid thin-film form will accelerate the move toward ultra-miniaturization of Polymer Photonic Integrated Circuits (P2IC™) by increasing the number of photonic circuits on a single chip. Polymer photonics is the application of polymers on to a platform such as silicon where there are both active and passive photonic component designs. In polymer photonics, polymer devices such as modulators, waveguides, and multiplexers can be fabricated on to a silicon platform that acts as a package as well as a base for mounting lasers (which are needed to source the light). We continue to invest in R&D and process development to help accelerate the adoption of our polymer materials by potential customers into their own PIC platforms, typically based on silicon photonics.
Our initial device, though highly miniaturized, utilizes conventional design and fabrication techniques in the industry. Our future device designs will utilize silicon photonics (SiPh) technology, which can support highly miniaturized slot waveguides structures etched in large format (200mm), low cost, and less expensive silicon wafers coated with our organic electro-optic polymers. The low-cost structure compares well to compound semiconductor technologies such as GaAs (Gallium arsenide) and InP (Indium Phosphide), which suffer from small format wafers that do not allow the economies of scale in high volume fabrication plants. The degree of miniaturization possible of the slot modulator using SiPh is not technically feasible to accomplish with inorganic crystalline materials. Although this may not always remain the case, presently there are nearly insurmountable technical difficulties that are inherent to a crystalline molecule. We now have the capability to model, simulate and design photonic integrated circuits (PICs) in-house.
Our Intellectual Property
Our research and development efforts over the last 10+ years have yielded our Company an extensive patent portfolio as well as critical trade secrets, unpatented technology and proprietary knowledge related to our optical polymer materials. Our intellectual property portfolio has expanded significantly over the few years. We have actively filed technical utility patents and are currently in the process of readying a number of other inventions for formal filings in 2025 and 2026. We expect to continue innovating our technology platform over the next decade. We had additional patents issued or published over the past year indicating that our technology is being recognized as being unique.
In 2018, we acquired the polymer technology intellectual property assets of BrPhotonics Productos Optoelectrónicos S.A., a Brazilian corporation, which significantly advanced our patent portfolio of electro-optic polymer technology with 15 polymer chemistry materials, devices, packaging and subsystems patents and further strengthened our design capabilities to solidify our market position as we prepare to enter the 400Gbps integrated photonics marketplace with a highly competitive, scalable alternative to installed legacy systems.
In 2022, we acquired the polymer technology and intellectual property assets of Chromosol Ltd (UK), which significantly strengthened our Company's design capabilities with foundry PDKs with extremely low temperature atomic layer deposition (ALD) processes that effectively hermetically seal polymer devices that have been prepared for high volume manufacturing. The advanced fabrication processes of ALD with temperatures below 100C will solidify our market position with both the Company's manufacturing foundry partners as well as end-users as we prepare to enter the 800Gbps integrated photonics marketplace. The acquisition also advanced our Company’s patent portfolio of electro-optic polymer technology with an innovative polymer chemistry device patent that has potential to increase the performance of integrated modulators through optical amplification in a photonic integrated circuit (PIC) and enhance the functionality of the PIC by integrating laser light sources made using the polymer-based gain and a laser optical cavity defined on the Silicon photonic platform, with our Company’s high speed, high efficiency modulators.
In total, our patent portfolio currently consists of 77 granted patents that include 46 from the US, 2 from Canada, 3 from the United Kingdom, 18 from the EU, 1 from Japan, 6 from China (including Hong Kong), and 1 from Australia.
Our materials patent portfolio has also strengthened significantly with the filing of additional new patent applications on our core Perkinamine® molecular compounds as well as recent, innovative inventions that are expected to protect our P2IC polymer PIC platform from potential competition.
Included in our patent portfolio are the following nonlinear optic chromophore designs:
• Stable Free Radical Chromophores, processes for preparing the same
• Stable Free Radical Chromophores, processes for preparing the same
• Tricyclic Spacer Systems for Nonlinear Optical Devices
• Anti-Aromatic Chromophore Architectures
• Heterocyclical Anti-Aromatic Chromophore Architectures
• Heterocyclical Chromophore Architectures
• Heterocyclical Chromophore Architectures with Novel Electronic Acceptor Systems
• Multi-fiber/port hermetic capsule sealed by metallization and method
• Device Design Fabrication Methods
• Modulators and Waveguides
• Hermetic Capsulation
Our patent portfolio includes patents not only on nonlinear optic chromophore designs, but also device designs and inventions, fabrication process inventions, packaging design inventions, as well as novel chemistry to enable high performance, low power, small footprint polymer PIC technology.
Our strategic plan is to utilize our core proprietary technology and leverage our proprietary optical materials to be the core of and the enabling technology for future generations of optical devices, modules, sub-systems and systems that we will develop or potentially out-license to electro-optic device manufacturers. Our Company contemplates future applications that may address the needs of semiconductor companies, automotive/LiDAR companies, sensing companies, aerospace companies and government agencies.
We rely on a combination of patents, patent applications, trademarks, trade secrets and contractual provisions to protect our technologies. Further, employees are required to surrender any inventions or intellectual property developed as part of their employment agreements. We also have a policy of requiring prospective business partners to enter into non-disclosure agreements (NDAs) before disclosure of any of our confidential or proprietary information. Our Company can make no assurances that we will be able to effectively protect our technologies and know-how or that third parties will not be able to develop similar technologies and know-how independently.
Recent Significant Events and Milestones Achieved
During February and March 2018, we moved our Newark, Delaware synthetic laboratory and our Longmont, Colorado optical testing laboratory and corporate headquarters to office, laboratory and research and development space located at 369 Inverness Parkway, Suite 350, Englewood, Colorado. The 13,420 square feet Englewood facility includes fully functional 1,000 square feet of class 1,000 cleanroom, 500 square feet of class 10,000 cleanroom, chemistry laboratories, and analytic laboratories. The Englewood facility streamlines all of our Company’s research and development workflow for greater operational efficiencies.
During June 2018, our Company Acquired the Polymer Technology Intellectual Property Assets of BrPhotonics Productos Optoelectrónicos S.A., a Brazilian corporation, which significantly advanced our patent portfolio of electro-optic polymer technology with 15 polymer chemistry materials, devices, packaging and subsystems patent and further strengthened our design capabilities to solidify our market position as we prepare to enter the 400Gbps integrated photonics marketplace with a highly competitive, scalable alternative to installed legacy systems.
On September 1, 2021, our Company's common shares began trading on the Nasdaq Capital Market (“Nasdaq”). The Company’s Nasdaq listing will help to expand our potential shareholder base, improve liquidity, elevate our public profile within the industry and should ultimately enhance shareholder value.
On November 29, 2022, we announced our acquisition of the polymer technology and intellectual property assets of Chromosol Ltd (UK). The acquisition significantly strengthened our Company's design capabilities with foundry PDKs with extremely low temperature atomic layer deposition (ALD) processes that effectively hermetically seal polymer devices that have been prepared for high volume manufacturing. Having access to extremely low temperature ALD allows our Company's polymer modulators to be protected from the environment without the need for expensive and large footprint gold box packaging, propelling our Company forward with chip-scale packaging as required by major hyper-scaler end-users.
Since the acquisition, our Company has made substantially progress in the utilization of ALD to hermetically seal polymers for modulator applications.
On December 12, 2022, we announced the receipt of U.S. patent number 11,506,918 B2 entitled “Hybrid electro-optic polymer modulator with atomic layer deposition (ALD) sealant layer,” which allows our proprietary polymers to be sealed to moisture and atmospheric gases in a very low temperature and quasi-hermetic environment through the use of a chip-scale packaging approach that can be applied in parallel at wafer level (i.e. in volume) and that eliminates the need for a separate hermetic enclosure or "gold box." Specifically, our electro-optic polymer modulators will be sealed with low-temperature conformal atomic layer deposition dielectric layers that are supported on a silicon substrate with passive silicon photonics waveguides. The sealant process will enable lower cost system implementation in a high-volume foundry environment.
On March 22, 2023, we announced that our latest commercial-class electro-optic polymer material achieved breakthrough performance metrics at 1310 nanometers (nm), a wavelength popular in hyperscale datacenter applications. These commercial-class improvements include a significantly higher electro-optic coefficient exceeding 200 pm/V, which allows for very low drive power of 1 volt or less. Other characteristics include optimized chromophore loading, superior low optical loss, excellent temporal stability at 850 Celsius, and extremely high thermal and photo stability. The breakthrough commercial-class electro-optic material is expected to enable ultra-small footprint modulators with at least 100 GHz bandwidth as well as meeting all critical requirements for pluggable transceivers, on-board optics and co-packaging solutions. Additionally, the achievement of these results at the 1310nm bandwidth positions us for potential near-term licensing opportunities in datacenter applications.
On May 25, 2023, we announced our Company's first commercial material supply license agreement for our Perkinamine® chromophore materials. This agreement is to provide Perkinamine® chromophore materials for polymer based photonic devices and photonic integrated circuits (PICs). Supplying licensed materials is one prong of our Company's three-prong revenue model and business strategy that includes polymer modulator products as well as technology transfer. This agreement recognizes market acceptance and competitive advantage of our technology and validates the first prong of our business model. Further, it represents tangible commercial progress for electro-optic polymers as part of our business plan.
On May 31, 2023, we announced the receipt of U.S. patent number 11,661,428 entitled "Nonlinear Optical Chromophores, Nonlinear Optical Materials Containing the Same, and Uses Thereof in Optical Devices," which details an innovative organic chromophore design using a novel 'thiophene bridge' to significantly improve material performance in a production environment. This is accomplished by designing thiophene-containing bridging groups that are positioned between the electron-donating and electron-accepting ends of the chromophore. These designs provide nonlinear optical chromophores with significantly improved optical properties and improved stability. We expect this patent will help us progress our commercial discussions with potential customers.
On August 21, 2023, we announced the completion of new laboratory production facilities, expanding our corporate headquarters by over 65%, nearly 10,000 square feet, for a total of approximately 23,500 square feet to support new commercial activity, including enabling commercial device testing and evaluation, production reliability testing, laser characterization, SEM analysis and the expansion of our Company's chemical synthesis production line.
On March 24, 2024, at the 2024 Optical Fiber Conference in San Diego, California (OFC 2024), we presented world-class results for our Company’s 200Gbps heterogeneous polymer/silicon photonic modulator at a record low drive voltage, which are based on a novel packaged heterogeneous polymer EO modulator design leveraging silicon photonics devices from a 200mm production foundry process and Lightwave Logic’s proprietary high temperature, high performance EO Polymer material. Each modulator was operated at 100GBaud PAM4 and achieved all drive voltages below 2V, and as low as 1V which is excellent for low power operation. We discussed the test set-up for the high-speed results, and how electro-optic polymer-based modulators based on 200mm silicon foundry wafers are ideal for 4 lane 200Gbps per lane 800Gbps pluggable optical transceivers for datacenter applications. We also shared updated lifetime and reliability data for both the electro-optic polymer materials and electro-optic polymer devices. Our results demonstrate that a hybrid approach, leveraging the cost and integration benefits of silicon photonics along with the unparalleled bandwidth and low power advantages of Lightwave Logic’s proprietary EO polymers, lays a clear path for competitive performance and integration for today’s and future optical pluggable transceivers, and we expect these results will position our Company to support the burgeoning demand of generative AI as datacenters around the world begin to upgrade their hardware faster than expected to meet the demands of the future.
On March 28, 2024, we announced world-class performance of the Company’s Perkinamine® EO polymer material operating in an optical interconnect link, at 437.1Gbps employing a PAM8 178GBaud signal encoded by a plasmonic Mach Zehnder modulator (MZM). In this work, intensity modulated, direct detection (IM/DD) techniques were utilized to drive higher performance. The paper, authored by our teammates ETH Zurich and Polariton Technologies, demonstrated data rates beyond 400Gbps for a IM/Dd optical interconnect link for the first time. This world-class result, achieving data rates of 400Gbps per lane, demonstrates that our Company’s EO polymers are capable of exceeding double the current industry expectation. This has the potential to enable 4 lane 1.6Tbps (1600Gbps) pluggable transceiver modules, which is on the roadmap of datacenter operators today.
On May 21, 2024, we announced our collaboration with Advanced Micro Foundry (AMF), a leading Silicon Photonics volume foundry, to develop state-of art polymer slot modulators utilizing AMF's silicon photonics platform. These modulators have been shown to achieve a record low drive voltage below 1V and data rates of 200Gbps PAM4. This performance will enable a new generation of 800 Gb/s and 1.6T Gb/s pluggable transceivers to address fast growing requirements for optical connectivity for large generative AI computing clusters. Lightwave Logic and AMF have collaborated over the past year to develop the electro optic polymer slot modulators utilizing AMF's standard manufacturing process flow on 200-mm wafers. This successful demonstration marked a significant milestone in integrated photonics, blending Silicon photonics with polymer materials. Building on this demonstration, both parties are aiming to enhance the modulators to ensure these advanced components are readily accessible to product companies on a manufacturing scale. This accomplishment puts our Company in a very strong position to ramp volume both for our polymers as well as 200-mm silicon wafer volume with AMF. It also opens exciting opportunities to develop novel solutions for commercial-grade-compatible EO polymer modulators seamlessly integrated with AMF's standard processes.
On September 24, 2024, we announced a collaboration with Polariton Technologies to demonstrate a packaged device with over 110 GHz super high bandwidth packaged electro-optic polymer modulators using Polariton's plasmonic modulator device design that contains Lightwave's proprietary Perkinamine® chromophores at the European Conference on Optical Communications (ECOC) held in Frankfurt, Germany from September 22-26, 2024. The packaged device contains a plasmonic modulator using electro-optic polymer material and platform chips have demonstrated 400 Gbps, which is the current specification that datacenters are looking for in optical transceiver modules. This collaboration forms an important technology platform for scalability using large silicon foundries for mass commercialization with 200mm silicon wafers. The combination of electro-optic polymers and plasmonics can support datacenters around the world which are responding to high power consumption and the burgeoning demand for higher speed data transmission from artificial intelligence, machine learning, and other cloud-based services. This device enables ultra-high bandwidths, which are extremely well suited for next generation internet and optical networking transceivers that require 200Gbps per lane today, and 400Gbps per lane soon.
On December 11, 2024, we strengthened our Company's management team to reinforce our competitive position and accelerate product and commercial strategic initiatives, including capitalizing on high-growth opportunities across the AI and datacenter networking sector, expediting commercialization for our proprietary electro-optic materials, and opening new markets and applications for our advanced polymer-based solutions. We named optical communications industry veteran Yves LeMaitre as our Chief Executive Officer and former CEO and Chairman Thomas E. Zelibor as our President. Ronald Bucchi, lead independent director, was appointed as our new non-executive independent Chairman, and James S. Marcelli, principal financial officer, was named as our Chief Financial Officer and continues to serve as Chief Operating Officer. Dr. Michael Lebby retired as Chairman and Chief Executive Officer of Lightwave Logic, effective December 10, 2024.
On March 10, 2025, we announced the advancement of our technical collaboration with Polariton Technologies, a technology leader of high-speed EO components for the communication market, and our transition from being a material supplier to collaborating on market development through end-user engagement and technical cooperation. Lightwave Logic and Polariton will work together to jointly develop technical solutions to enable the faster adoption and integration of combined plasmonics and polymer-based products, with semiconductor fabrication plants, outsourced assembly, and test operations. In addition to manufacturing transmitter PICs with inherent superior electro-optic performance, both teams will be working together on an extensive qualification and reliability program, high-speed RF and optical testing and back-end manufacturing process integration.
As we move forward to diligently meet our goals, we continue to work closely with our packaging and foundry partners for 200Gbps and 400Gbps/lane device designs and prototypes, and we are advancing our reliability and characterization efforts to support our prototyping. Our partnership with silicon-based foundries will allow us to scale commercial volumes of electro-optic polymer modulator devices using large silicon wafers, and we are currently working to have our fabrication processes accepted into foundry PDKs (process development kits). These are the recipes that foundries use to manufacture devices in their fabrication plants.
We are actively engaged with test equipment manufacturers of the most advanced test equipment to test our state-of-the-art polymer devices. We continue to engage with multiple industry bodies to promote our roadmap. We continue to fine tune our business model with target markets, customers, and technical specifications. Our business model includes the licensing of our strong IP and Patent portfolio, as well as technology transfer to entities such as foundries. Discussions with prospective customers are validating that our materials are ideally suited for the datacenter, AI connectivity and telecommunications markets. Details and feedback of what these prospective customers are seeking from a prototype are delivered to our technical team.
The Global Photonic Device Market and Our Target Markets
Our initial target market is the AI focused datacenter eco-system that is exponentially expanding to address the need for accurate Large Language Models - LLMs - for a variety of applications. To address these requirements, datacenters have grown in number and scope to include hundreds of thousands of servers, switches and associated equipment per datacenter to address the computing needs required for LLMs - a process often known as “scaling up and scaling out”. The number of “hyperscale” datacenters are expected to continue to increase in number both in the US, but also in the rest of the world.
Figure 1: Number of Data Center Sites (by Size)
Source: “How Many Data Centers Are There and Where Are They being Built”, Yih-Khai Wong, ABI Research, July 16, 2024
A “single” hyperscale datacenter may consist of multiple large warehouse-size buildings on a campus or even several locations distributed around a metropolitan area. Regardless of the design, these datacenters will require transmitting and receiving vast amounts of data - not only around a single data center building - but often also between buildings in distributed data center architecture. The connectivity required between servers, switches and related electronics within a single datacenter building is often shorter than 500 meters, with a growing requirement for opto-electronics for connecting equipment that may be in facilities that are up to 10km apart. The ideal method for addressing these links has been - and will continue to be - single mode fiber cabling. Correspondingly, the minimum “speeds” or bandwidth required for transmitting data on these connections is expected to be 800Gigabits/second - a speed that eventually be supplanted with 1.6Terabit/second and 3.2 Terabit/second connections, (2 times and 4 times faster than 800Gibaits/second), as shown in Figure 2. Each connection speed will require either 4 or 8 modulators which results in a multimillion unit opportunity on a yearly basis.
Figure 2: Number of Opto-Electronic Connectivity Requirements (by “speed”)
Source: “Optical Communications market Forecast”, Lightcounting, October, 2024
The combined growth in number of datacenters and speed requirements has generated considerable discussion of the need for reduction in the growth of energy demands needed for operations. Our polymers will enable low power modulators that will be required for the opto-electronics utilized for interconnecting the switches and servers deployed at these required speeds on this cabling infrastructure.
Figure 3: Datacenter Power Consumption Forecast
Source: “Investing in the Rising Data Center Economy”, McKinsey, January 17, 2023
Business Strategy
Our first revenue stream was obtained from our entry into a material supply license agreement to provide Perkinamine® chromophore materials for polymer based photonic devices and photonic integrated circuits (PICs). Our Company is also in various stages of materials development and evaluation with potential customers and strategic partners. We expect to continue to obtain a revenue stream from technology licensing agreements, and to obtain additional revenue streams from technology transfer agreements and direct sale of our electro-optic Perkinamine® chromophore material.
Specifically, our business strategy provides that our revenue stream will be derived from one or some combination of the following: (i) technology licensing for specific product application; (ii) joint venture relationships with significant industry leaders; and (iii) the production and direct sale of our own electro-optic materials. Our objective is to be a leading provider of proprietary technology and know-how in the electro-optic device market. In order to meet this objective, we intend to continue to:
• Further the development of proprietary organic electro-optic polymer material systems.
• Partner with PIC or packaged device design and manufacturing companies to further the development of PDKs for our polymer material.
• Develop proprietary intellectual property.
• Grow our commercial device design and development capabilities.
• Partner with silicon-based foundries who can scale volume quickly and integrate our materials into their infrastructure.
• Grow our product reliability and quality assurance capabilities.
• Grow our optoelectronic and RF testing capabilities.
• Grow our commercial material manufacturing capabilities.
• Maintain/develop strategic relationships with major telecommunications and data communications companies to further the awareness and commercialization of our technology platform.
• Add high-level personnel with industrial and manufacturing experience in key areas of our materials and process development programs.
Create Organic Polymer-Enabled Electro-Optic Modulators
We intend to utilize our proprietary optical polymer technology to enable the creation by our customers of a portfolio of commercial electro-optic polymer product devices with applications for various markets, including telecommunications, data communications and data centers.
We expect our -polymer material to be used initially in modulator products that will operate at symbol rates at least 112 Gigabaud which is roughly 200Gbps when utilized with PAM4 encoding schemes. Our devices are highly linear and can also enable the performance required to take advantage of more advanced complex encoding schemes if required.
Our Research and Development Process
Our research and development process consists of the following steps:
• We develop novel polymer materials utilizing our patented and patent pending technology to meet certain performance specifications. We then develop methods to synthesize larger quantities of such material.
• We conduct a full battery of tests at the completion of the synthesis of each new polymer material to evaluate its characteristics. We also create development strategies to optimize materials to meet specifications for specific applications. We model and simulate each new polymer material so that we can further understand how to optimize the material for device operation.
• We integrate data from the material characterization and test results to fabricate sample devices for internal use. We analyze device-testing results to refine and improve fabrication processes and methods. In addition, we investigate alternative material and design variations to possibly create more efficient fabrication processes.
• We create an initial device design using simulation software. Following device fabrication, we run a series of optical and electronic tests on the device.
• We are developing PDKs with commercial silicon-based foundries so that our technology can transfer seamlessly to larger silicon wafer fabrication plants, and scale in volume quickly.
We have and expect to continue to make significant operating and capital expenditures for research and development. Our research and development expenses were $16,806,548 and $15,903,689, for the years ended December 31, 2024, and 2023, respectively.
Our Past Government Program Participation
Our Company has been a participant in several vital government sponsored research and development programs with various government agencies that protect the interests of our country. The following is a list of some of the various divisions of government agencies that have provided us with advisory, financial and/or materials support in the pursuit of high-speed electro-optic materials. Our previous relationships included:
• National Reconnaissance Office (NRO)
• Properties Branch of the Army Research Laboratory on the Aberdeen Proving Grounds in Aberdeen, Maryland
• Defense Advance Research Project Agency (DARPA)
• Naval Air Warfare Center Weapons Division in China Lake, California
• Air Force Research Laboratory at Wright-Patterson Air Force Base in Dayton, Ohio
We are aware of a multitude of government programs that include for example the Chips and Science Act amongst others. As noted above, we are not currently partnered with or financially supported by any governmental agency at this time, however, we are exploring future opportunities as our Company grows and gains the additional resources and personnel necessary to support these efforts.
Our Competition
Competitors
The markets we are targeting for our electro-optic polymer technology are intensely competitive. While there are no major multi-national companies that compete directly with us on electro-polymers, there are other companies that do manufacture optical modulators based on alternative material platforms such as Indium Phosphide, Silicon or Silicon Nitride and Lithium Niobate. These companies that have incumbent optical modulators using semiconductors include: Lumentum, Broadcom, Marvell, Cisco, Intel, Ciena, Fujitsu, and Coherent. These companies are heavily invested in the production of crystalline-based semiconductor electro-optic modulator technologies, as well as the development of novel manufacturing techniques and modulator designs.
Smaller companies that compete with us on optical modulators using new and novel technologies include: Hyperlite (who are developing thin film lithium niobate (TFLN), NLM Photonics (organic hybrid polymer) and Lumiphase (who are developing Barium Titanate or BTO).
Our Plan to Compete
We believe that as our organic polymer technology gains industry acceptance, we will be poised to obtain a significant portion of the component manufacturing market and have our technology become ubiquitous. Electro-optic polymers demonstrate several advantages over other technologies, such as inorganic-based technologies, due to their reduced manufacturing and processing costs, higher performance, and lower power requirements. Our patented organic polymers and future electro-optic photonic devices have demonstrated significant stability advantages over our known competitor’s materials.
We believe the principal competitive factors in our target markets are:
• The ability to develop and commercialize highly stable optical polymer-based materials and optical devices in commercial quantities.
• The ability to obtain appropriate patent and proprietary rights protection.
• The ability to create commercial silicon-based PDKs for our electro-optic polymers.
• Lower cost, high production yield for these products.
• The ability to enable integration and implement advanced technologies.
• Strong sales and marketing, and distribution channels for access to products.
We believe that our current business planning will position our Company to compete adequately with respect to these factors. Our future success is difficult to predict because we are an early-stage company with most of products still in development.
Many of our existing and potential competitors have substantially greater research and product development capabilities and financial, scientific, marketing and human resources than we do. As a result, these competitors may:
• Succeed in developing products that are equal to or superior to our products and future products or that achieve greater market acceptance than our products and future products.
• Devote greater resources to developing, marketing or selling their products.
• Respond quickly to new or emerging technologies or scientific advances and changes in customer requirements, which could render our technologies or products obsolete.
• Introduce products that make the continued development of our products and/or future products uneconomical.
• Obtain patents that block or otherwise inhibit our ability to develop and commercialize our future products.
• Withstand price competition more successfully than we can.
• Establish cooperative relationships among themselves or with third parties that enhance their ability to address the needs of our prospective customers.
• Take advantage of acquisition or other opportunities more readily than we can.
Employees and Human Capital
We currently have 31 full-time employees, and we retain several independent contractors on an as-needed basis. Based on our current development plan we expect to add 4 additional full-time employees in 2025.
People
As a technology and innovation-driven company, we depend on a highly skilled workforce. Attracting, developing, advancing and retaining the best talent is critical for us to execute our strategy and grow our business. Individuals with technical, engineering, chemistry and other science backgrounds, experience, or interests are particularly important for us to succeed. We strive to advance a diverse, equitable and inclusive work environment.
Technical Team
Our team is composed of world-class technologists, including materials scientists, design engineers, device engineers, synthetic organic chemists, test and material engineers and technicians.
Diversity and Inclusion
We work to create a culture of diversity and inclusion so that all of our employees feel they are respected and treated equally, regardless of gender, race, ethnicity, age, disability, sexual orientation, gender identity, cultural background or religious belief.
Compensation and benefits
Our total rewards package includes market-competitive pay, stock option grants and bonuses, healthcare benefits, retirement savings plans, life insurance, disability insurance, paid time off and family leave, and flexible work schedules.
The principal purposes of our equity incentive plan is to attract and retain employees who will contribute to our Company’s long range success, to provide incentives that align the interests of our employees with those of our shareholders, and to promote the success of our Company’s business.
Health and Safety
We are committed to providing a healthy environment and safe workplace by operating in accordance with established health and safety protocols within our facility and maintaining a strong health and safety compliance program. We prioritize, manage, and carefully track safety performance at our facility and integrate sound safety practices in every aspect of our operations. We regularly conduct self-assessments to examine our safety culture and processes.
Available Information
We maintain a website at www.lightwavelogic.com. We make available on our website under “Investors” - “SEC Filings,” free of charge, our annual reports on Form 10-K, quarterly reports on Form 10-Q, current reports on Form 8-K, and amendments to those reports as soon as reasonably practicable after we electronically file or furnish such material with the SEC. References to our website in this report are provided as a convenience, and the information on our website is not, and shall not be deemed to be a part of this Annual Report on Form 10-K or incorporated into any other filings we make with the SEC. The SEC maintains an Internet site (www.sec.gov) that contains reports, proxy and information statements, and other information regarding issuers that file electronically with the SEC. In addition, we make available on our website under “Leadership” - “Governance Documents”, free of charge, our Audit Committee Charter, Compensation Committee Charter, Nominating And Corporate Governance Committee Charter, Operations Committee Charter and Code of Ethics and Business Conduct. In addition, the foregoing information is available in print, without charge, to any stockholder who requests these materials from us.

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ITEM 1A. RISK FACTORS
Item 1A. Risk Factors.
Investing in our common stock is risky. In addition to the other information contained in this Annual Report on Form 10-K, you should consider carefully the following risk factors in evaluating our business and us. If any of the following events actually occur, our business, operating results, prospects or financial condition could be materially and adversely affected. This could cause the trading price of our common stock to decline and you may lose all or part of your investment. The risks described below are not the only ones that we face. Additional risks not presently known to us or that we currently deem immaterial may also significantly impair our business operations and could result in a complete loss of your investment.
We have incurred substantial operating losses since our inception and will continue to incur substantial operating losses for the foreseeable future.
Since our inception, we have been engaged primarily in the research and development of our electro-optic polymer materials technologies and products. As a result of these activities, we incurred significant losses and experienced negative cash flow since our inception. We incurred a net loss of $22,535,041 for the year ended December 31, 2024, and $21,038,032 for the year ended December 31, 2023. We anticipate that we will continue to incur operating losses through at least 2025.
We may not be able to generate significant revenue either through customer contracts for our existing or future products or technologies or through development contracts from the U.S. government or government subcontractors. We expect to continue to make significant operating and capital expenditures for research and development and to improve and expand production, sales, marketing and administrative systems and processes. As a result, we will need to generate significant revenue to achieve profitability. We cannot assure you that we will ever achieve profitability.
We are subject to the risks frequently experienced by early-stage companies.
The likelihood of our success must be considered in light of the risks frequently encountered by early-stage companies, especially those formed to develop and market new technologies. These risks include our potential inability to:
· Establish significant product sales and marketing capabilities;
· Establish and maintain significant markets for our products and future products;
· Identify, attract, retain and motivate qualified personnel;
· Continue to develop and upgrade our technologies to keep pace with changes in technology and the growth of markets using polymer-based materials;
· Develop expanded product production facilities, along with silicon-based foundry and other outside contractor relationships; and
· Maintain our reputation and build trust with customers.
Our failure to effectively manage our growth and effectively transition from our focus on research and development activities to commercial operations could harm our business.
Failure to manage growth of operations could harm our business. To date, a large number of our activities and resources have been directed at the research and development of our technologies and development of potential related products including work in association with external partners. The transition from a focus on research and development to being a vendor of products requires effective planning and management. Additionally, growth arising from expected synergies from any future acquisitions will require effective planning and management. Future expansion will be expensive and will likely strain management and other resources.
In order to effectively manage growth, we must:
· Continue to develop an effective planning and management process to implement our business strategy;
· Hire, train and integrate new personnel in all areas of our business;
· Expand our facilities and increase capital investments; and
· Continue to successfully partner with silicon-based foundries.
We cannot assure you that we will be able to accomplish these tasks effectively or otherwise effectively manage our growth.
We will require additional capital to continue to fund our operations and if we do not obtain additional capital, we may be required to substantially limit our operations.
Our business does not presently generate the cash needed to finance our current and anticipated operations. Based on our current operating plan and budgeted cash requirements, we believe that we have sufficient funds to finance our operations through April 2026; however, we will need to obtain additional future financing after that time to finance our operations until such time that we can conduct profitable revenue-generating activities. We expect that we will need to seek additional funding through public or private financings, including equity financings, and through other arrangements, including collaborative arrangements. Poor financial results, unanticipated expenses or unanticipated opportunities could require additional financing sooner than we expect. Other than with respect to (i) the purchase agreement for up to $30 million we entered into with Lincoln Park on February 28, 2023 (the “2023 Purchase Agreement”); (ii) the purchase agreement for up to $30 million we entered into with Lincoln Park on March 17, 2025 (the “2025 Purchase Agreement"); and (iii) the sales agreement for up to $35 million we entered into with Roth Capital Partners, LLC (“Roth Capital”) on December 9, 2022 (the “Roth Sales Agreement”); we have no plans or arrangements with respect to the possible acquisition of additional financing, and such financing may be unavailable when we need it or may not be available on acceptable terms. We currently have a remaining amount of $0 million and $30 million pursuant to the 2023 Purchase Agreement and 2025 Purchase Agreement with Lincoln Park, subject to the conditions set forth therein, respectively, and $31.5 million that is available to our Company pursuant to the Roth Sales Agreement with Roth Capital.
Our forecast of the period of time through which our financial resources will be adequate to support our operations is a forward-looking statement and involves risks and uncertainties, and actual results could vary as a result of a number of factors, including the factors discussed elsewhere in this Annual Report on Form 10-K. We have based this estimate on assumptions that may prove to be wrong, and we could use our available capital resources sooner than we currently expect.
Additional financing may not be available to us, due to, among other things, our Company not having a sufficient credit history, income stream, profit level, asset base eligible to be collateralized, or market for its securities. If we raise additional funds by issuing equity or convertible debt securities, the percentage ownership of our existing shareholders may be reduced, and these securities may have rights superior to those of our common stock. If adequate funds are not available to satisfy our long-term capital requirements, or if planned revenues are not generated, we may be required to substantially limit our operations.
We are entering new markets, and if we fail to accurately predict growth in these new markets, we may suffer substantial losses.
We are initially targeting applications in fiber optic data communications and telecommunications markets, in particular ultra-high bandwidth optical connections deployed inside and between datacenters and/or AI clusters. In addition, we are exploring other applications that include automotive/LIDAR, sensing, displays, storage, aerospace and defense, satellites, quantum computing etc., for our polymer technology platform. We expect to continue to develop products for these markets and to seek to identify new markets. These markets change rapidly, and we cannot assure you that they will grow or that we will be able to accurately forecast market demand, or lack thereof, in time to respond appropriately. Our investment of resources to develop products for these markets may either be insufficient to meet actual demand or result in expenses that are excessive in light of actual sales volumes. Failure to predict growth and demand accurately in new markets may cause us to suffer substantial losses. In addition, as we enter new markets, there is a significant risk that:
· The market may not accept the price and/or performance of our products;
· There may be issued patents we are not aware of that could block our entry into the market or could result in excessive litigation; and
· The time required for us to achieve market acceptance of our products may exceed our capital resources that would require additional investment.
Our plan to develop relationships with strategic partners may not be successful.
Part of our business strategy is to maintain and develop strategic relationships with private firms, such as packaging companies and silicone-based foundries, and to a lesser extent, government agencies and academic institutions, to conduct research and development and testing of our products and technologies. For these efforts to be successful, we must identify partners whose competencies complement ours. We must also successfully enter into agreements with them on terms attractive to us, and integrate and coordinate their resources and capabilities with our own. We may be unsuccessful in entering into agreements with acceptable partners or negotiating favorable terms in these agreements. Also, we may be unsuccessful in integrating the resources or capabilities of these partners. In addition, our strategic partners may prove difficult to work with or less skilled than we originally expected. If we are unsuccessful in our collaborative efforts, our ability to develop and market products could be severely limited.
The failure to establish and maintain collaborative relationships may have a materially adverse affect on our business.
We are initially targeting applications in fiber optic data communications and telecommunications markets, in particular ultra-high bandwidth optical connections deployed inside and between datacenters and/or AI clusters. In addition, we are exploring other applications that include automotive/LIDAR, sensing, displays, storage, aerospace and defense, satellites, quantum computing etc., for our polymer technology platform. Our ability to generate significant revenues depends significantly on the extent to which potential customers and other potential industry partners develop, promote and sell systems that incorporate our products, which, of course, we cannot control. Any failure by potential customers and other potential industry partners to successfully develop and market systems that incorporate our products could adversely affect our sales. The extent to which potential customers and other industry partners develop, promote and sell systems incorporating our products is based on a number of factors that are largely beyond our ability to control.
We may participate in joint ventures that expose us to operational and financial risk.
We may participate in one or more joint ventures for the purpose of assisting us in carrying out our business expansion, especially with respect to new product and/or market development. We may experience with our joint venture partner(s) issues relating to disparate communication, culture, strategy, and resources. Further, our joint venture partner(s) may have economic or business interests or goals that are inconsistent with ours, exercise their rights in a way that prohibits us from acting in a manner which we would like, or they may be unable or unwilling to fulfill their obligations under the joint venture or other agreements. We cannot assure you that the actions or decisions of our joint venture partners will not affect our operations in a way that hinders our corporate objectives or reduces any anticipated cost savings or revenue enhancement resulting from these ventures.
If we fail to develop and introduce new or enhanced products on a timely basis, our ability to attract and retain customers could be impaired and our competitive position could be harmed.
We plan to operate in a dynamic environment characterized by rapidly changing technologies and industry standards and technological obsolescence. To compete successfully, we must design, develop, market and sell products that provide increasingly higher levels of performance and reliability and meet the cost expectations of our customers. The introduction of new products by our competitors, the market acceptance of products based on new or alternative technologies, or the emergence of new industry standards could render our anticipated products obsolete. Our failure to anticipate or timely develop products or technologies in response to technological shifts could adversely affect our operations. In particular, we may experience difficulties with product design, manufacturing, marketing or certification that could delay or prevent our development, introduction or marketing of products. If we fail to introduce products that meet the needs of our customers or penetrate new markets in a timely fashion our Company will be adversely affected.
Our future growth will suffer if we do not achieve sufficient market acceptance of our organic nonlinear optical materials.
We expect our patented and patent-pending optical materials along with trade secrets and licensed materials, to be the core of and the enabling technology for future generations of optical devices, modules, sub-systems and systems that we will develop or out-license to electro-optic device manufacturers. Most of our materials are still in the development stage, and we do not know when a market for our materials will develop, if at all. Our success depends, in part, upon our ability to gain market acceptance of our organic nonlinear optical materials. To be accepted, our materials must meet the technical and performance requirements of our potential customers. OEMs, suppliers or government agencies may not accept polymer-based materials. In addition, even if we achieve some degree of market acceptance for our materials in one industry, we may not achieve market acceptance in other industries that we are targeting. Also, certain large corporations may be predisposed against doing business with a company of our limited size and operating history.
Our potential customers require our products to undergo a lengthy and expensive qualification process, which does not assure product sales.
Prior to purchasing our products, our potential customers will require that our products undergo extensive qualification processes. These qualification processes may continue for several months or more. However, qualification of a product by a customer does not assure any sales of the product to that customer. Even after successful qualification and sales of a product to a customer, a subsequent revision to the product, changes in our customer’s manufacturing process or our selection of a new supplier may require a new qualification process, which may result in additional delays. Also, once one of our products is qualified, it could take several additional months or more before a customer commences volume production of components or devices that incorporate our products. Despite these uncertainties, we are devoting substantial resources, including design, engineering, sales, marketing and management efforts, to qualifying our products with customers in anticipation of sales. If we are unsuccessful or delayed in qualifying any of our products with a customer, sales of our products to a customer may be precluded or delayed, which may impede our growth and cause our business to suffer.
Obtaining a sales contract with a potential customer does not guarantee that a potential customer will not decide to cancel or change its product plans, which could cause us to generate no revenue from a product and adversely affect our results of operations.
Even after we secure a sales contract with a potential customer, we may experience delays in generating revenue from our products as a result of a lengthy development cycle that may be required. Potential customers will likely take a considerable amount of time to evaluate our products; it could take 12 to 24 months from early engagement by our sales team to actual product sales. The delays inherent in these lengthy sales cycles increase the risk that a customer will decide to cancel, curtail, reduce or delay its product plans, causing us to lose anticipated sales. In addition, any delay or cancellation of a customer’s plans could materially and adversely affect our financial results, as we may have incurred significant expense and generated no revenue. Finally, our customers’ failure to successfully market and sell their products could reduce demand for our products and materially and adversely affect our business, financial condition and results of operations. If we were unable to generate revenue after incurring substantial expenses to develop any of our products, our business would suffer.
Many of our products will have long sales cycles, which may cause us to expend resources without an acceptable financial return and which makes it difficult to plan our expenses and forecast our revenue.
Many of our products will have long sales cycles that involve numerous steps, including initial customer contacts, specification writing, engineering design, prototype fabrication, pilot testing, regulatory approvals (if needed), sales and marketing and commercial manufacture. During this time, we may expend substantial financial resources and management time and effort without any assurance that product sales will result. The anticipated long sales cycle for some of our products makes it difficult to predict the quarter in which sales may occur. Delays in sales may cause us to expend resources without an acceptable financial return and make it difficult to plan expenses and forecast revenues.
Successful commercialization of our current and future products will require us to maintain a high level of technical expertise.
Technology in our target markets is undergoing rapid change. To succeed in our target markets, we will have to establish and maintain a leadership position in the technology supporting those markets. Accordingly, our success will depend on our ability to:
· Accurately predict the needs of our target customers and develop, in a timely manner, the technology required to support those needs;
· Provide products that are not only technologically sophisticated but are also available at a price acceptable to customers and competitive with comparable products;
· Establish and effectively defend our intellectual property; and
· Enter into relationships with other companies that have developed complementary technology into which our products may be integrated.
We cannot assure you that we will be able to achieve any of these objectives.
One of our significant target markets is the telecommunications market, which historically has not accepted polymer modulators.
One of our significant target markets is the telecommunications market, which demands high reliability optical components. Historically, polymer modulators have not been accepted into this market even though polymer modulators have achieved Telcordia™ based specifications. It is clear that the telecommunications market is demanding higher and higher data rates for its optical components, and may again decide that polymer based modulators are not suitable even if higher data rates, high reliability, and low power consumption are demonstrated.
Another of our significant target markets is the data communications (datacenter and/or high performance computing) market, which may be subject to heavy competition from other PIC based technologies such as silicon photonics and Indium Phosphide.
Another of our significant target markets is the fiber optic data communications market, in particular ultra-high bandwidth optical connections deployed inside and between datacenters and/or AI clusters, which may be subject to heavy competition from other PIC based technologies such as silicon photonics and Indium Phosphide. As the demands for high performance, low cost ($/Gbps) is implemented into next generation architectures, polymer modulators and polymer based PIC products may be subject to significant competition. Furthermore, there is a potential that technologies such as silicon photonics and Indium Phosphide might reach the metric of $1/Gbps at 800Gbps before ours. Customers may then be less willing to purchase new technology such as ours or invest in new technology development such as ours for next generation systems.
Our inability to successfully acquire and integrate other businesses, assets, products or technologies could harm our business and cause us to fail at achieving our anticipated growth.
We may grow our business through strategic acquisitions and investments, and we are actively evaluating acquisitions and strategic investments in businesses, products or technologies that we believe could complement or expand our product offering, create and/or expand a client base, enhance our technical capabilities or otherwise offer growth or cost-saving opportunities. From time to time, we may enter into letters of intent with companies with which we are negotiating potential acquisitions or investments or as to which we are conducting due diligence. Although we are currently not a party to any binding material definitive agreement with respect to potential investments in, or acquisitions of, complementary businesses, products or technologies, we may enter into these types of arrangements in the future, which could materially decrease the amount of our available cash or require us to seek additional equity or debt financing. We have limited experience in successfully acquiring and integrating businesses, products and technologies. We may not be successful in negotiating the terms of any potential acquisition, conducting thorough due diligence, financing the acquisition or effectively integrating the acquired business, product or technology into our existing business and operations. Our due diligence may fail to identify all of the problems, liabilities or other shortcomings or challenges of an acquired business, product or technology, including issues related to intellectual property, product quality or product architecture, regulatory compliance practices, revenue recognition or other accounting practices, or employee or customer issues.
Additionally, in connection with any acquisitions we complete, we may not achieve the synergies or other benefits we expected to achieve, and we may incur write-downs, impairment charges or unforeseen liabilities that could negatively affect our operating results or financial position or could otherwise harm our business. If we finance acquisitions using existing cash, the reduction of our available cash could cause us to face liquidity issues or cause other unanticipated problems in the future. If we finance acquisitions by issuing convertible debt or equity securities, the ownership interest of our existing stockholders may be diluted, which could adversely affect the market price of our stock. Further, contemplating or completing an acquisition and integrating an acquired business, product or technology could divert management and employee time and resources from other matters, which could harm our business, financial condition and operating results.
We may incur debt in the future that might be secured with our intellectual property as collateral, which could subject our Company to the risk of loss of all of our intellectual property.
We currently have no debt to service. If we incur debt in the future, we may be required to secure the debt with our intellectual property, including all of our patents and patents pending. In the event we default on the debt, we could incur the loss of all of our intellectual property, which would materially and adversely affect our Company and cause you to lose your entire investment in our Company.
Our failure to compete successfully could harm our business.
The markets that we are targeting for our proprietary electro-optic polymer systems and photonic devices are intensely competitive. Most of our present and potential competitors have or may have substantially greater research and product development capabilities, financial, scientific, marketing, manufacturing and human resources, name recognition and experience than we have. As a result, these competitors may:
· succeed in developing materials and product integration expertise that is equal to or superior to our offerings or that will achieve greater market acceptance than our offerings and future offerings;
· devote greater resources to developing, marketing or selling their products;
· respond more quickly to new or emerging technologies or scientific advances and changes in customer requirements, which could render our technologies obsolete;
· introduce products that make the continued development of our materials and future materials uneconomical;
· obtain patents that block or otherwise inhibit our ability to develop and commercialize our materials and future materials;
· withstand price competition more successfully than we can;
· establish cooperative relationships among themselves or with third parties that enhance their ability to address the needs of our prospective customers.
Our failure to compete successfully against these existing or future competitors could harm our business.
We may be unable to obtain effective intellectual property protection for our products and technology.
Our intellectual property, or any intellectual property that we have or may acquire, license or develop in the future, may not provide meaningful competitive advantages. Our patents and patent applications, including those we license, may be challenged by competitors, and the rights granted under such patents or patent applications may not provide meaningful proprietary protection. For example, numerous patents held by third parties relate to polymer materials and electro-optic devices. These patents could be used as a basis to challenge the validity or limit the scope of our patents or patent applications. A successful challenge to the validity or limitation of the scope of our patents or patent applications could limit our ability to commercialize our polymer materials technology and, consequently, reduce our revenues.
Moreover, competitors may infringe our patents or those that we license, or successfully avoid these patents through design innovation. To combat infringement or unauthorized use, we may need to resort to litigation, which can be expensive and time-consuming and may not succeed in protecting our proprietary rights. In addition, in an infringement proceeding a court may decide that our patents or other intellectual property rights are not valid or are unenforceable, or may refuse to stop the other party from using the intellectual property at issue on the ground that it is non-infringing. Policing unauthorized use of our intellectual property is difficult and expensive, and we may not be able to, or have the resources to, prevent misappropriation of our proprietary rights, particularly in countries where the laws may not protect these rights as fully as the laws of the United States.
We also rely on the law of trade secrets to protect unpatented technology and know-how. We try to protect this technology and know-how by limiting access to those employees, contractors and strategic partners with a need to know this information and by entering into confidentiality agreements with these parties. Any of these parties could breach the agreements and disclose our trade secrets or confidential information to our competitors, or these competitors might learn of the information in other ways. Disclosure of any trade secret not protected by a patent could materially harm our business.
We may be subject to patent infringement claims, which could result in substantial costs and liability and prevent us from selling our products.
Third parties may claim that our products or related technologies infringe their patents. Any patent infringement claims brought against us may cause us to incur significant expenses, divert the attention of our management and key personnel from other business concerns and, if successfully asserted against us, require us to pay substantial damages. In addition, as a result of a patent infringement suit, we may be forced to stop or delay developing, manufacturing or selling products that are claimed to infringe a patent covering a third party’s intellectual property unless that party grants us rights to use its intellectual property. We may be unable to obtain these rights on terms acceptable to us, if at all. Even if we are able to obtain rights to a third party’s patented intellectual property, these rights may be non-exclusive, and therefore our competitors may obtain access to the same intellectual property. Ultimately, we may be unable to sell our products or may have to cease some of our business operations as a result of patent infringement claims, which could severely harm our business.
If our products infringe the intellectual property rights of others, we may be required to indemnify customers for any damages they suffer. Third parties may assert infringement claims against our current or potential customers. These claims may require us to initiate or defend protracted and costly litigation on behalf of customers, regardless of the merits of these claims. If any of these claims succeed, we may be forced to pay damages on behalf of these customers or may be required to obtain licenses for the products they use. If we cannot obtain all necessary licenses on commercially reasonable terms, we may be unable to continue selling such products.
Our technology may be subject to government rights.
We may have obligations to government agencies in connection with the technology that we have developed, including the right to require that a compulsory license be granted to one or more third parties selected by certain government agencies. It may be difficult to monitor whether these third parties will limit their use of our technology to these licensed uses, and we could incur substantial expenses to enforce our rights to our licensed technology in the event of misuse.
The loss of certain of our key personnel, or any inability to attract and retain additional personnel, could impair our ability to attain our business objectives.
Our future success depends to a significant extent on the continued service of our key management personnel, particularly Yves LeMaitre, our Chief Executive Officer, Thomas E. Zelibor, our President and James S. Marcelli our Chief Financial Officer, Chief Operating Officer, and Secretary. Accordingly, the loss of the services of any of these persons would adversely affect our business and our ability to continue to commercialize our products, and impede the attainment of our business objectives.
Our future success will also depend on our ability to attract, retain and motivate highly skilled personnel to assist us with product development and commercialization. Competition for highly educated qualified personnel in the polymer industry is intense. If we fail to hire and retain a sufficient number of qualified management, engineering, sales and technical personnel, we will not be able to attain our business objectives.
If we fail to develop and maintain the quality of our manufacturing integration and design processes, our operating results would be harmed.
The manufacture and integration of our materials for devices is a multi-stage process that requires the use of high-quality materials and advanced manufacturing technologies and design. Also, polymer-related device development and manufacturing, whether performed by a silicon photonics design house or elsewhere, must occur in a highly controlled, clean environment to minimize particles and other yield and quality-limiting contaminants. In spite of stringent quality controls, weaknesses in process control or minute impurities in materials may cause a substantial percentage of a product in a lot to be defective. If we are not able to develop and continue to improve our manufacturing design processes, if stringent quality controls are not maintained, or if contamination problems arise, our operating results would be harmed.
The complexity of our organic nonlinear optical materials may lead to errors, defects and bugs, which could result in the necessity to redesign materials and could negatively impact our reputation with customers.
Organic nonlinear optical materials as complex as those we market and intend to market might contain errors, defects and bugs when first introduced or as new versions are released. Delivery and integration of materials with production defects or reliability, quality or compatibility problems could significantly delay or hinder market acceptance of our materials or result in a costly recall and could damage our reputation and adversely affect our ability to sell our materials. If our organic nonlinear optical materials experience defects, we may need to undertake a redevelopment of the materials, a process that may result in significant additional expenses.
We may also be required to make significant expenditures of capital and resources to resolve such problems. There is no assurance that problems will not be found in new products after commencement of commercial production, despite testing by our suppliers, our customers and us.
If we decide to make commercial quantities of products at our facilities, we will be required to make significant capital expenditures to increase capacity.
We lack the internal ability to manufacture products at a level beyond the stage of early commercial introduction. To the extent we do not have an outside vendor to manufacture our products, we will have to increase our internal production capacity and we will be required to expand our existing facilities or to lease new facilities or to acquire entities with additional production capacities. These activities would require us to make significant capital investments and may require us to seek additional equity or debt financing. We cannot assure you that such financing would be available to us when needed on acceptable terms, or at all. Further, we cannot assure you that any increased demand for our products would continue for a sufficient period of time to recoup our capital investments associated with increasing our internal production capacity.
In addition, we do not have experience manufacturing our products in large quantities. In the event of significant demand for our products, large-scale production might prove more difficult or costly than we anticipate and lead to quality control issues and production delays.
We may not be able to manufacture products at competitive prices.
To date, we have produced limited quantities of materials for license and sale and materials and devices for research, development, demonstration and prototype purposes. The cost per unit for these products currently exceeds the price at which we could expect to profitably sell them. If we cannot substantially lower our cost of production as we move into sales of products in significant commercial quantities, our financial results will be harmed.
We may be unable to export our products or technology to other countries, convey information about our technology to citizens of other countries or sell certain products commercially, if the products or technology are subject to United States export or other regulations.
We develop certain polymer-based products that we believe the United States government and other governments may be interested in using for military and information gathering or antiterrorism activities. United States government export regulations may restrict us from selling or exporting certain products into other countries, exporting our technology to those countries, conveying information about our technology to citizens of other countries or selling certain products to commercial customers. We may be unable to obtain export licenses for products or technology, if they become necessary. We currently cannot assess whether national security concerns would affect our future products and, if so, what procedures and policies we would have to adopt to comply with applicable existing or future regulations.
We are subject to regulatory compliance related to our operations.
We are subject to various U.S. governmental regulations related to occupational safety and health, labor and business practices. Failure to comply with current or future regulations could result in the imposition of substantial fines, suspension of production, alterations of our production processes, cessation of operations, or other actions, which could harm our business.
We may incur liability arising from the use of hazardous materials.
Our business and our facilities are subject to a number of federal, state and local laws and regulations relating to the generation, handling, treatment, storage and disposal of certain toxic or hazardous materials and waste products that we use or generate in our operations. Many of these environmental laws and regulations subject current or previous owners or occupiers of land to liability for the costs of investigation, removal or remediation of hazardous materials. In addition, these laws and regulations typically impose liability regardless of whether the owner or occupier knew of, or was responsible for, the presence of any hazardous materials and regardless of whether the actions that led to the presence were taken in compliance with the law. In our business, we use hazardous materials that are stored on site. We use various chemicals in our manufacturing process that may be toxic and covered by various environmental controls. An unaffiliated waste hauler transports the waste created by use of these materials off-site. Many environmental laws and regulations require generators of waste to take remedial actions at an off-site disposal location even if the disposal was conducted lawfully. The requirements of these laws and regulations are complex, change frequently and could become more stringent in the future. Failure to comply with current or future environmental laws and regulations could result in the imposition of substantial fines, suspension of production, alteration of our production processes, cessation of operations or other actions, which could severely harm our business.
Our data and information systems and network infrastructure may be subject to hacking or other cybersecurity threats. If our security measures are breached and an unauthorized party obtains access to our proprietary business information, our information systems may be perceived as being unsecure, which could harm our business and reputation, and our proprietary business information could be misappropriated which could have an adverse effect on our business and results of operations.
Our Company stores and transmits its proprietary information on its computer systems. Despite our security measures, our information systems and network infrastructure may be vulnerable to cyber-attacks or could be breached due to an employee error or other disruption that could result in unauthorized disclosure of sensitive information that has the potential to significantly interfere with our business operations. Breaches of our security measures could expose us to a risk of loss or misuse of this information, litigation and potential liability. Since techniques used to obtain unauthorized access or to sabotage information systems change frequently and generally are not recognized until launched against a target, we may be unable to anticipate these techniques or to implement adequate preventive measures in advance of such an attack on our systems. In addition, we use third party vendors to store our proprietary information who use cyber or “Cloud” storage of information as part of their service or product offerings, and despite our attempts to validate the security of such services, our proprietary information may be misappropriated by other parties. In the event of an actual or perceived breach of our security, or the security of one of our vendors, the market perception of the effectiveness of our security measures could be harmed and we could suffer damage to our reputation or our business. Additionally, misappropriation of our proprietary business information could prove competitively harmful to our business.
We conduct significantly all of our research and development activities at our Englewood, CO facility, and circumstances beyond our control may result in considerable business interruptions.
We conduct significantly all of our research and development activities at our Englewood, CO facility. Our operations are vulnerable to interruption by fire, earthquake, floods or other natural disaster, quarantines or other disruptions associated with infectious diseases, national catastrophe, terrorist activities, war, disruptions in our computing and communications infrastructure due to power loss, telecommunications failure, human error, physical or electronic security breaches and computer viruses, and other events beyond our control. We do not have a detailed disaster recovery plan.
We could be negatively affected as a result of a proxy contest and the actions of activist stockholders.
A proxy contest with respect to election of our directors, or other activist stockholder activities, could adversely affect our business because: (1) responding to a proxy contest and other actions by activist stockholders can be costly and time-consuming, disruptive to our operations and divert the attention of management and our employees; (2) perceived uncertainties as to our future direction caused by activist activities may result in the loss of potential business opportunities, and may make it more difficult to attract and retain qualified personnel and business partners; and (3) if individuals are elected to our Board of Directors with a specific agenda, it may adversely affect our ability to effectively and timely implement our strategic plans.
The requirements of being a public company are a strain on our systems and resources, are a diversion to management’s attention and are costly.
As a public company, we are subject to the reporting requirements of the Securities Exchange Act of 1934 (“Exchange Act”) the Sarbanes-Oxley Act of 2002 (“Sarbanes-Oxley Act”), the Dodd-Frank Wall Street Reform and Consumer Protection Act (“Dodd-Frank Act”), and the rules and regulations of The NASDAQ Stock Market. The requirements of these rules and regulations increase our legal, accounting and financial compliance costs, make some activities more difficult, time-consuming and costly and may also place undue strain on our personnel, systems and resources.
The Exchange Act requires, among other things, that we file annual, quarterly and current reports with respect to our business and operating results. The Sarbanes-Oxley Act requires, among other things, that we maintain effective disclosure controls and procedures and internal control over financial reporting. We are continuing the costly process of implementing and testing our systems to report our results as a public company, to continue to manage our growth and to implement internal controls. We are and will continue to be required to implement and maintain various other control and business systems related to our equity, finance, treasury, information technology, other recordkeeping systems and other operations. As a result of this implementation and maintenance, management's attention may be diverted from other business concerns, which could adversely affect our business. Furthermore, we rely on third-party software and system providers for ensuring our reporting obligations and effective internal controls, and to the extent these third parties fail to provide adequate service including as a result of any inability to scale to handle our growth and the imposition of these increased reporting and internal controls and procedures, we could incur material costs for upgrading or switching systems and our business could be materially affected.
In addition, changing laws, regulations and standards relating to corporate governance and public disclosure are creating uncertainty for public companies, increasing legal and financial compliance costs and making some activities more time consuming. These laws, regulations and standards are subject to varying interpretations, in many cases due to their lack of specificity, and, as a result, their application in practice may evolve over time as new guidance is provided by regulatory and governing bodies. This could result in continuing uncertainty regarding compliance matters and higher costs necessitated by ongoing revisions to disclosure and governance practices. We intend to invest resources to comply with evolving laws, regulations and standards, and this investment may result in increased general and administrative expenses and a diversion of management's time and attention from revenue-generating activities to compliance activities. If our efforts to comply with new laws, regulations and standards differ from the activities intended by regulatory or governing bodies due to ambiguities related to their application and practice, regulatory authorities may initiate legal proceedings against us and our business may be adversely affected.
In addition, we expect these laws, rules and regulations to make it more difficult and more expensive for us to obtain director and officer liability insurance, and we may be required to incur substantial costs to maintain appropriate levels of coverage. These factors could also make it more difficult for us to attract and retain qualified members of our board of directors, particularly to serve on our audit committee, and qualified executive officers.
As a result of being a public company, our business and financial condition are more visible, which we believe may result in threatened or actual litigation, including by competitors and other third parties. If such claims are successful, our business and operating results could be adversely affected, and even if the claims do not result in litigation or are resolved in our favor, these claims, and the time and resources necessary to resolve them, could divert the time and resources of our management and adversely affect our business and operating results.
If we fail to maintain an effective system of disclosure controls and internal control over financial reporting, our ability to produce timely and accurate financial statements or comply with applicable regulations could be impaired.
As a public company, we are subject to the reporting requirements of the Securities Exchange Act of 1934 (Exchange Act) the Sarbanes-Oxley Act of 2002 (Sarbanes-Oxley Act), the Dodd-Frank Wall Street Reform and Consumer Protection Act (Dodd-Frank Act), and the rules and regulations of The NASDAQ Stock Market. We expect that compliance with these rules and regulations will continue to increase our legal, accounting and financial compliance costs, make some activities more difficult, time-consuming and costly, and place significant strain on our personnel, systems and resources.
The Sarbanes-Oxley Act requires, among other things, that we assess the effectiveness of our internal control over financial reporting annually and the effectiveness of our disclosure controls and procedures quarterly. In particular, Section 404 of the Sarbanes-Oxley Act, (Section 404), requires us to perform system and process evaluation and testing of our internal control over financial reporting to allow management to report on, and our independent registered public accounting firm to attest to, the effectiveness of our internal control over financial reporting. Our compliance with applicable provisions of Section 404 requires that we incur substantial accounting expense and expend significant management time on compliance-related issues as we implement additional corporate governance practices and comply with reporting requirements. Moreover, if we are not able to comply with the requirements of Section 404 applicable to us in a timely manner, or if we or our independent registered public accounting firm identifies deficiencies in our internal control over financial reporting that are deemed to be material weaknesses, the market price of our stock could decline and we could be subject to sanctions or investigations by the SEC or other regulatory authorities, stockholder or other third-party litigation, all of which would require additional financial and management resources.
Furthermore, investor perceptions of our Company may suffer if deficiencies are found, and this could cause a decline in the market price of our stock or hinder our ability to raise capital. Irrespective of compliance with Section 404, any failure of our internal control over financial reporting could have a material adverse effect on our stated operating results and harm our reputation. If we are unable to continue to implement and maintain these requirements effectively or efficiently, it could harm our operations, financial reporting, or financial results and could result in an adverse opinion on our internal controls from our independent registered public accounting firm.
The exercise of options and warrants and other issuances of shares of common stock or securities convertible into common stock will dilute your interest.
Our Board may determine from time to time that it needs to raise additional capital by issuing additional shares of our common stock or other securities and we are not restricted from issuing additional common stock, including securities that are convertible into or exchangeable for, or that represent the right to receive, shares of our common stock. Because our decision to issue securities in any future offering will depend on market conditions and other factors beyond our control, we cannot predict or estimate the amount, timing, or nature of any future offerings, or the prices at which such offerings may be affected. Additional equity offerings may dilute the holdings of existing stockholders or reduce the market price of our common stock.
As of December 31, 2024, we have outstanding options and warrants to purchase an aggregate of 8,848,908 shares of our common stock at exercise prices ranging from $0.51 to 16.81 per share with a weighted average exercise price of $3.00 per share. The exercise of options and warrants at prices below the market price of our common stock could adversely affect the price of shares of our common stock. Additional dilution may result from the issuance of shares of our capital stock in connection with any collaboration (although none are contemplated at this time) or in connection with other financing efforts, including pursuant to the 2025 Purchase Agreement with Lincoln Park, and the Roth Sales Agreement with Roth Capital. Any issuance of our common stock that is not made solely to then-existing stockholders proportionate to their interests, such as in the case of a stock dividend or stock split, will result in dilution to each stockholder by reducing his, her or its percentage ownership of the total outstanding shares. Moreover, if we issue options or warrants to purchase our common stock in the future and those options or warrants are exercised or we issue restricted stock, stockholders may experience further dilution. Holders of shares of our common stock have no preemptive rights that entitle them to purchase their pro rata share of any offering of shares of any class or series.
The trading price of our common stock has been, and may continue to be, volatile, and the value of our common stock may decline. This volatility, as well as general market conditions, may cause our stock price to fluctuate greatly and even potentially expose us to litigation.
Our common stock may be subject to continued volatility. During the past 52 weeks, the share price for our common stock ranged from a low of $1.00 to a high of $4.82. We cannot assure you that the market price for our common stock will be less volatile or will remain at its current level. A decrease in the market price for our shares could result in substantial losses for investors. The market price of our common stock may be significantly affected by one or more of the following factors, many of which are beyond our control, including:
· our Company’s ability to execute on its business plan;
· the status of particular development programs and the timing of performance under specific development agreements;
· actual or anticipated demand for our products and future products and technologies;
· amount and timing of our costs related to our development and marketing efforts or other initiatives and expansion of our operations;
· changes in anticipated commercial deployment of certain products and financial results;
· our ability to enter into, renegotiate or renew key agreements or strategic relationships;
· our ability to develop expanded product production facilities, along with silicon-based foundry and other outside contractor relationships;
· issuance of new or updated research or reports by securities analysts;
· the use by investors or analysts of third-party data regarding our business that may not reflect our operations;
· fluctuations in the valuation of companies perceived by investors to be comparable to us;
· share price and volume fluctuations attributable to inconsistent trading volume levels of our shares;
· large trades, block trades or short selling of our common stock;
· actual or anticipated changes in our competitive position relative to our industry competitors;
· announcements or implementation by our competitors of technological innovations or new products;
· changes in laws or regulations applicable to our products or industry;
· additions or departures of key personnel;
· capital-raising activities or commitments;
· product shortages requiring suppliers to allocate minimum quantities;
· the commencement or conclusion of legal proceedings that involve us;
· costs related to possible future acquisitions of technologies or businesses;
· economic conditions specific to our industry, as well as general economic and market conditions; or
· other events or factors, including those resulting from civil unrest, war, foreign invasions, terrorism, or public health crises or responses to such events.
Furthermore, the stock markets frequently experience extreme price and volume fluctuations that affect the market prices of equity securities of many companies. These fluctuations often have been unrelated or disproportionate to the operating performance of those companies. These broad market and industry fluctuations, as well as general economic, political, and market conditions such as recessions, elections, interest rate changes, or international currency fluctuations, may negatively impact the market price of our common stock. As a result of such fluctuations, you may not realize any return on your investment in us and may lose some or all of your investment. In the past, companies that have experienced volatility in the market price of their stock have been subject to securities class action litigation or derivative litigation.
A sale of a substantial number of shares of our common stock may cause the price of our common stock to decline and may impair our ability to raise capital in the future.
Our common stock is traded on The NASDAQ Capital Market and, despite certain increases of trading volume from time to time, there have been periods when the market for our common stock could be considered “thinly-traded,” meaning that the number of persons interested in purchasing our common stock at or near bid prices at any given time may be relatively small. Finance transactions or option/warrant exercises resulting in a large amount of newly issued shares that become readily tradable, or other events that cause current stockholders to sell shares, could place downward pressure on the trading price of our stock the trading price of our stock could decline. Additionally, we believe a significant portion of our shares are held by shareholders that accumulated their shares during a time when our shares prices were significantly less than our current share prices. If these shareholders, some of which hold a substantial number of shares of our common stock, decide to sell some or all of their shares at once without regard to the impact of their sales on the market price of our stock, the trading price of our stock could decline. In addition, the lack of a robust resale market may require a stockholder who desires to sell a large number of shares of common stock to sell the shares in increments over time to mitigate any adverse impact of the sales on the market price of our stock.
If our existing stockholders sell, or the market perceives that our stockholders intend to sell, substantial amounts of our common stock in the public market, including shares issued upon the exercise of outstanding options or warrants or pursuant to the 2025 Purchase Agreement with Lincoln Park, and the Roth Sales Agreement with Roth Capital, the market price of our common stock could decline. Sales of a substantial number of shares of our common stock may make it more difficult for us to sell equity or equity-related securities in the future at a time and price that we deem reasonable or appropriate. We may become involved in securities class action litigation that could divert management’s attention and harm our business.
Our common stock will be subject to potential delisting if we do not maintain the listing requirements of the Nasdaq Capital Market.
Our common stock commenced trading on The NASDAQ Capital Market on September 1, 2021. We cannot assure you that an active trading market for our common stock will continue to be sustained. Nasdaq has rules for continued listing, including, without limitation, minimum market capitalization and other requirements. Failure to maintain our listing, or de-listing from Nasdaq, would make it more difficult for stockholders to dispose of our securities and more difficult to obtain accurate price quotations on our securities. This could have an adverse effect on the price of our common stock. Our ability to issue additional securities for financing or other purposes, or otherwise to arrange for any financing we may need in the future, may also be materially and adversely affected if our common stock and/or other securities are not traded on a national securities exchange.
If securities or industry analysts do not publish research or reports about our business, or if they change their recommendations regarding our stock adversely, our stock price and trading volume could decline.
The trading market for most listed companies’ securities depends in part on the research and reports that securities or industry analysts publish about them or their business. We currently have no independent research analysts that cover our stock and we may not obtain research coverage by securities and industry analysts until our products are commercialized and we obtain revenues, and there is no assurances that we will ever obtain independent research analysts coverage. If no securities or industry analysts commence coverage of us, the trading price for our common stock could be negatively affected. In the event any analyst who covers us downgrades our securities, the price of our securities would likely decline. If one or more of these analysts ceases to cover us or fails to publish regular reports on us, interest in the purchase of our securities could decrease, which could cause the price of our common stock and its trading volume to decline.
Our board of directors has the authority, without stockholder approval, to issue preferred stock with terms that may not be beneficial to existing common stockholders and with the ability to affect adversely stockholder voting power and perpetuate their control over us.
Our articles of incorporation, as amended, allow us to issue shares of preferred stock without any vote or further action by our stockholders. Our board of directors has the authority to fix and determine the relative rights and preferences of preferred stock. Our board of directors also has the authority to issue preferred stock without further stockholder approval, including large blocks of preferred stock. As a result, our board of directors could authorize the issuance of a series of preferred stock that would grant to holders thereof the preferred right to our assets upon liquidation, the right to receive dividend payments before dividends are distributed to the holders of common stock or other preferred stockholders and the right to the redemption of the shares, together with a premium, prior to the redemption of our common stock or existing preferred stock, if any.
Preferred stock could be used to dilute a potential hostile acquirer. Accordingly, any future issuance of preferred stock or any rights to purchase preferred stock may have the effect of making it more difficult for a third party to acquire control of us. This may delay, defer or prevent a change of control or an unsolicited acquisition proposal. The issuance of preferred stock also could decrease the amount of earnings attributable to, and assets available for distribution to, the holders of our common stock and could adversely affect the rights and powers, including voting rights, of the holders of our common stock and preferred stock.
Our articles of incorporation and amended and restated bylaws, and certain provisions of Nevada corporate law, as well as certain of our contracts, contain provisions that could delay or prevent a change in control even if the change in control would be beneficial to our stockholders.
Nevada law, as well as our articles of incorporation, as amended, and amended and restated bylaws, contain anti-takeover provisions that could delay or prevent a change in control of our Company, even if the change in control would be beneficial to our stockholders. These provisions could lower the price that future investors might be willing to pay for shares of our common stock. These anti-takeover provisions:
· authorize our board of directors to create and issue, without stockholder approval, preferred stock, thereby increasing the number of outstanding shares, which can deter or prevent a takeover attempt;
· prohibit cumulative voting in the election of directors, which would otherwise allow less than a majority of stockholders to elect director candidates;
· empower our board of directors to fill any vacancy on our board of directors, whether such vacancy occurs as a result of an increase in the number of directors or otherwise;
· provide that our board of directors be divided into three classes, with approximately one-third of the directors to be elected each year;
· provide that special meetings of our stockholders may only be called by the chairperson, president or chief executive officer, or by resolution of the board of directors or at the request in writing of stockholders owning 66 2/3% in amount of the entire capital stock of the Company issued and outstanding and entitled to vote;
· establish advance notice procedures with regard to stockholder proposals relating to stockholder nominees for director and other stockholder proposals;
· provide that our board of directors is expressly authorized to adopt, amend or repeal our bylaws; and
· provide that our directors will be elected by a plurality of the votes cast in the election of directors.
Nevada Revised Statutes, the terms of our employee stock option agreements and other contractual provisions may also discourage, delay or prevent a change in control of our Company. Nevada Revised Statutes sections 78.378 to 78.3793 provide state regulation over the acquisition of a controlling interest in certain Nevada corporations unless the articles of incorporation or bylaws of the corporation provide that the provisions of these sections do not apply. Our articles of incorporation, as amended, and amended and restated bylaws do not state that these provisions do not apply. The statute creates a number of restrictions on the ability of a person or entity to acquire control of a Nevada company by setting down certain rules of conduct and voting restrictions in any acquisition attempt, among other things. The statute contains certain limitations and it may not apply to our Company. Our 2016 Equity Incentive Plan includes change-in-control provisions that allow us to grant options that may become vested immediately upon a change in control. Our board of directors also has the power to adopt a stockholder rights plan that could delay or prevent a change in control of our Company even if the change in control is generally beneficial to our stockholders. These plans, sometimes called “poison pills,” are oftentimes criticized by institutional investors or their advisors and could affect our rating by such investors or advisors. If our board of directors adopts such a plan, it might have the effect of reducing the price that new investors are willing to pay for shares of our common stock.
Together, these charter, statutory and contractual provisions could make the removal of our management and directors more difficult and may discourage transactions that otherwise could involve payment of a premium over prevailing market prices for our common stock. Furthermore, the existence of the foregoing provisions, as well as the significant common stock beneficially owned by our founders, executive officers, and members of our board of directors, could limit the price that investors might be willing to pay in the future for shares of our common stock. They could also deter potential acquirers of our Company, thereby reducing the likelihood that you could receive a premium for your common stock in an acquisition.

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ITEM 1B. UNRESOLVED STAFF COMMENTS
Item 1B. Unresolved Staff Comments.
None.

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ITEM 2. PROPERTIES
Item 2. Properties.
Our principal executive office and research and development facility is located at 369 Inverness Parkway, Suite 350, Englewood, Colorado. The 23,104 square feet facility includes fully functional 1,000 square feet of class 1,000 cleanroom, 500 square feet of class 10,000 cleanroom, chemistry laboratories, and analytic laboratories, and serves as our office, laboratory and research and development space. Our total annual base rent during 2024 is expected to be approximately $387,666.

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ITEM 3. LEGAL PROCEEDINGS
Item 3. Legal Proceedings.
We are not a party to any litigation of a material nature, nor are we aware of any threatened litigation of a material nature.

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ITEM 4. MINE SAFETY DISCLOSURE
Item 4. Mine Safety Disclosures.
Not Applicable.
PART II

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ITEM 5. MARKET FOR REGISTRANT'S COMMON EQUITY
Item 5. Market For Registrant’s Common Equity, Related Stockholder Matters and Issuer Purchases Of Equity Securities.
Market Information
Our common stock trades on the Nasdaq Capital Market under the symbol LWLG.
Holders of Common Stock
On March 18, 2025, we had approximately 67 holders of our common stock, not including persons who hold our common stock in nominee or "street name” accounts through brokers or banks.
Dividend Policy
Our Company has never paid a cash dividend and has no present plans to pay cash dividends.
Securities Authorized for Issuance under Equity Compensation Plans
Equity Compensation Plans as of December 31, 2024.
Equity Compensation Plan Information
Number of securities to be
issued upon exercise of
outstanding options,
warrants and rights
Weighted-average exercise
price of outstanding options,
warrants and rights
Number of securities remaining
available for future issuance
under equity compensation plans
(excluding securities reflected in
column (a))
Plan category
(a)
(b)
(c)
Equity compensation plans approved by security holders(1)
9,499,859
$3.17
3,480,845
Equity compensation plans not approved by security holders (2)
400,000
$0.60
-
Total
9,899,859
$3.07
3,480,845
1. Reflects shares of common stock to be issued pursuant to our 2016 Equity Incentive Plan and our 2007 Employee Stock Plan, both of which are for the benefit of our directors, officers, employees and consultants. We have reserved 13,000,000 shares of common stock for such persons pursuant to our 2016 Equity Incentive Plan. We terminated our 2007 Employee Stock Plan in June 2016 and no additional awards are made under that plan.
2. Comprised of common stock purchase warrants we issued for services.
Stock Performance Graph
The graph set forth below compares the cumulative total stockholder return on our common stock between December 31, 2019 and December 31, 2024, with the cumulative total return of (a) the NASDAQ Composite Index and (b) Solactive EPIC Core Photonics USD Index NTR, over the same period. This graph assumes the investment of $100 on December 31, 2019 in our common stock, the NASDAQ Composite Index and the Solactive EPIC Core Photonics USD Index NTR and assumes the reinvestment of dividends, if any. The graph assumes our closing sales price on December 31, 2019 of $0.70 per share as the initial value of our common stock.
The comparisons shown in the graph below are based upon historical data. The stock price performance shown in the graph below is not necessarily indicative of, nor is it intended to forecast, the potential future performance of our common stock. Information used in the graph was obtained from the NASDAQ Stock Market LLC and Solactive AG, financial data providers and sources believed to be reliable.
The above graph and related information shall not be deemed “soliciting material” or to be “filed” with the Securities and Exchange Commission, nor shall such information be incorporated by reference into any future filing under the Securities Act or the Exchange Act except to the extent we specifically incorporate it by reference into such filing. Our stock price performance shown in the graph below is not indicative of future stock price performance.
Recent Sales of Unregistered Securities
During the period covered by this report, our Company has sold the following securities without registering the securities under the Securities Act:
Date
Security
January 2024
Common Stock - 19,000 shares of Common Stock at $0.75 per share pursuant to a warrant exercise.
December 2024
Common Stock - 100,000 shares of Common Stock at $0.77 per share pursuant to a warrant exercise.
No underwriters were utilized, and no commissions or fees were paid with respect to any of the above transactions. These persons were the only offerees in connection with these transactions. We relied on Section 4(a)(2) and Rule 506 of Regulation D of the Securities Act since the transaction does not involve any public offering.
Purchases of Equity Securities by the Issuer or Affiliated Purchasers
None.

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ITEM 6. SELECTED FINANCIAL DATA
Item 6. RESERVED.

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ITEM 7. MANAGEMENT'S DISCUSSION AND ANALYSIS
Item 7. MANAGEMENT’S DISCUSSION AND ANALYSIS OF FINANCIAL CONDITION AND RESULTS OF OPERATIONS.
The following management’s discussion and analysis of financial condition and results of operations provides information that management believes is relevant to an assessment and understanding of our plans and financial condition. The following selected financial information is derived from our historical financial statements and should be read in conjunction with such financial statements and notes thereto set forth elsewhere within this Annual Report on Form 10-K and the "Forward-Looking Statements" explanation included elsewhere herein.
Overview
Lightwave Logic, Inc. is a technology platform company leveraging its proprietary engineered electro-optic (EO) polymers to transmit data at higher speeds with less power in a small form factor. The Company’s high activity and high stability organic polymers allow it to create next-generation photonic EO devices that convert data from electrical signals into light/optical signals for applications in telecommunications, and for data transmission potentially used to support generative AI.
Our differentiation at the modulator device level is in higher speed, lower power consumption, simplicity of manufacturing, small footprint (size), and reliability. We have demonstrated the electro-optic polymers potential for higher speed and lower power consumption in packaged devices, and during 2024, we continued to make advances in techniques to translate our world class material properties to efficient, reliable modulator devices with commercial foundries. We are currently focused on a) working with potential and existing customers to integrate our proprietary materials into our customers’ specific PIC and device architecture. b) testing and demonstrating the superior performance, simplicity of manufacturability and reliability of our devices, including in conjunction with the silicon photonics manufacturing ecosystem c) providing our potential and existing customers with the proper Process Development Kits (PDKs) to enable the efficient and fast integration of our materials into their own design and manufacturing plans. In 2024 we continued to work with silicon-based foundry partners to help scale in volume our polymer modulator devices and we received working modulator chips from these foundries. We have advanced and matured our interactions with our foundry partners and we continue to receive working modulator chips for prototyping. Silicon-based foundries are semiconductor fabrication plants developed for the electronics IC business, that are now engaging with silicon photonics to increase their wafer throughput. Partnering with silicon-based foundries not only demonstrates that our polymer technology can be transferred into standard production lines using standard equipment, it also allows us to efficiently utilize our capital. The foundry partnerships will allow us to scale our high-performance polymer optical engines quickly and efficiently. We have now received silicon wafers that range up to 200mm in diameter, which aligns well with foundry manufacturing.
Our extremely strong and broad patent portfolio allows us to optimize our business model in three areas: 1) Traditional focus on polymer materials development, 2) Patent licensing and 3) Technology transfer to foundries. We are continually looking to strengthen our patent portfolio both by internal inventions and acquisition of intellectual property.
We are initially targeting applications in fiber optic data communications and telecommunications markets, in particular ultra-high bandwidth optical connections deployed inside and between datacenters and/or AI clusters. In addition, we are exploring other applications that include automotive/LIDAR, sensing, displays, storage, aerospace and defense, etc., for our polymer technology platform. Our goal is to have our unique polymer technology platform become ubiquitous across multiple market verticals over and above the optical fiber optic communications markets.
Artificial Intelligence (AI) has been integrating deeper within our daily activities with applications to make us more efficient and possibly smarter. The impact on the internet is huge, and the internet is based on an optical network that utilizes data centers to route and switch traffic or information to and from destinations. Data centers are being upgraded today in a fashion that the industry has not seen before with significant investments of capital. The expected demands of increased traffic, information, and data driven by AI is changing the way the internet is being operated. AI is now creating new and interesting market opportunities to upgrade the internet. Three of these opportunities are important today: density, speed, and low power and these are very well aligned with our high performance electro-optic polymers modulator platform. We are designing high performance polymer modulator optical engines to support the rise and growth of AI as it generates more information that will travel through the internet and optical network. While we are not directly an AI company designing electronic processors, we do see immediate benefits of enabling higher levels of information to cross the internet using our optical polymer modulator platform.
Commencement of Commercial Operations
We commenced commercial operations in May 2023. Presently, our commercial operations consist of a material supply license agreement to provide Perkinamine® chromophore materials for polymer based photonic devices and photonic integrated circuits (PICs). The license agreement represents tangible commercial progress for electro-optic polymers as part of our Company's business plan. Our Company is also in various stages of photonic proprietary device designs and materials development and evaluation with potential customers and strategic partners. We expect to continue to obtain a revenue stream from technology licensing agreements, and to obtain additional revenue streams from technology transfer agreements and sale of our electro-optic proprietary device designs.
Business Strategy
Our first revenue stream was obtained from our entry into a material supply license agreement to provide Perkinamine® chromophore materials for polymer based photonic devices and photonic integrated circuits (PICs). Our Company is also in various stages of photonic device designs and materials development and evaluation with potential customers and strategic partners. We expect to continue to obtain a revenue stream from technology licensing agreements, and to obtain additional revenue streams from technology transfer agreements and sale of our proprietary electro-optic devices.
Specifically, our business strategy provides that our revenue stream will be derived from one or some combination of the following: (i) technology licensing for specific product application; (ii) joint venture relationships with significant industry leaders; and (iii) the sale of our own proprietary electro-optic device designs. Our objective is to be a leading provider of proprietary technology and know-how in the electro-optic materials and devices. In order to meet this objective, we intend to continue to:
• Further the development of proprietary organic electro-optic polymer material systems
• Develop photonic device designs based on our P2IC™ technology
• Develop proprietary intellectual property
• Grow our device design development capabilities
• Partner with silicon-based foundries who can scale volume quickly
• Grow our product reliability and quality assurance capabilities
• Grow our optoelectronic packaging and testing capabilities
• Grow our commercial material manufacturing capabilities
• Maintain/develop strategic relationships with major telecommunications and data communications companies to further the awareness and commercialization of our technology platform
• Add high-level personnel with industrial and manufacturing experience in key areas of our materials and device development
Create Organic Polymesr-Enabling design and production of Electro-Optic Modulators
We intend to utilize our proprietary optical polymer technology to create an initial portfolio of commercial electro-optic polymer product devices designs with applications for various markets, including telecommunications, data communications and data centers. These product devices will be part of our proprietary photonics integrated circuit (PIC) technology platform.
Capital Requirements
We commenced commercial operations in May 2023, and we do not generate sufficient revenues to pay for our operating expenses. We have incurred substantial net losses since inception. We have satisfied our capital requirements since inception primarily through the issuance and sale of our common stock.
Results of Operations
Comparison of year ended December 31, 2024 to year ended December 31, 2023
Revenues 	
During the year ended December 31, 2024, we recognized $81,855 of licensing and royalty revenue and $13,750 of revenue for the device processing work on the device supplied by a customer. During the year ended December 31, 2023, we recognized $40,502 of licensing and royalty revenue.
Cost of sales
During the year ended December 31, 2024, we recognized $7,395 in cost of sales. During the year ended December 31, 2023, we recognized $2,513 in cost of sales.
Operating expenses
For the Year
Ended
December 31, 2024
For the Year
Ended December 31, 2023
Change from
Prior Year Percent
Change from
Prior Year
Research and development 16,806,548 $ 15,903,689 $ 902,859 6 %
General and administrative 6,370,805 5,359,565 1,011,240 19 %
$ 23,177,353 $ 21,263,254 $ 1,914,099 9 %
Research and development expenses increased for the year ended December 31, 2024, as compared to the year ended December 31, 2023, primarily due to increases in research and development salary and benefits expenses, research and development equipment depreciation expense, prototype device development and wafer fabrication expenses, research and development travel expenses, rent expenses, property tax expenses, research and development consulting expenses, software expenses, and laboratory and wafer fabrication materials and supplies expenses, offset by decreases in research and development non-cash stock option amortization expenses, research and development recruiting fees, and research and development employee relocation expenses in the year ended December 31, 2024, compared to the same period in 2023.
· Research and development salary and benefits expenses increased by $1,472,979 in the year ended December 31, 2024, compared to the same period in 2023.
· Depreciation expense increased by $424,232 in the year ended December 31, 2024, compared to the same period in 2023.
· Prototype device development and wafer fabrication expenses increased by $341,555 in the year ended December 31, 2024, compared to the same period in 2023.
· Research and development travel expenses increased by $107,351 in the year ended December 31, 2024, compared to the same period in 2023.
· Research and development rent expenses increased by $99,898 in the year ended December 31, 2024, compared to the same period in 2023.
· Property tax expenses increased by $98,181 in the year ended December 31, 2024, compared to the same period in 2023.
· Research and development consulting expenses increased by $65,261 in the year ended December 31, 2024, compared to the same period in 2023.
· Research and development software expenses increased by $64,318 in the year ended December 31, 2024, compared to the same period in 2023.
· Laboratory and wafer fabrication materials and supplies expenses increased by $59,090 in the year ended December 31, 2024, compared to the same period in 2023.
· These increases were offset by a $1,571,632 decrease in research and development non-cash stock option amortization expenses, a $216,115 decrease in research and development recruiting fees, and a $108,305 decrease in research and development employee relocation expenses in the year ended December 31, 2024, compared to the same period in 2023.
We expect to continue to incur substantial research and development expenses developing and commercializing our electro-optic materials platform. These expenses will increase as a result of accelerated development effort to support commercialization of our non-linear optical polymer materials technology and create next-generation photonic EO device designs; working with semiconductor foundries; hiring additional technical and support personnel; engaging senior technical advisors; pursuing other potential business opportunities and collaborations; customer testing and evaluation; and incurring related operating expenses.
General and administrative expenses increased for the year ended December 31, 2024, as compared to the year ended December 31, 2023, primarily due to increases in general and administrative salary and benefits expenses, consulting fees, depreciation expense, investor relations expenses, and sales and marketing expenses, offset by decreases general and administrative non-cash stock option amortization expenses, and accounting expenses.
· General and administrative salary and benefits expenses increased by $866,829 in the year ended December 31, 2024, compared to the same period in 2023.
· General and administrative consulting fees increased by $215,707 in the year ended December 31, 2024, compared to the same period in 2023.
· Depreciation expense increased by $103,624 in the year ended December 31, 2024, compared to the same period in 2023.
· Investor relations expenses increased by $54,259 in the year ended December 31, 2024, compared to the same period in 2023.
· Sales and marketing expenses increased by $52,623 in the year ended December 31, 2024, compared to the same period in 2023.
· These increases were offset by a $263,822 decrease in general and administrative non-cash stock option amortization expense and a $183,722 decrease in accounting fees in the year ended December 31, 2024, compared to the same period in 2023.
Other Income
For the Year
Ended
December 31, 2024
For the Year
Ended
December 31, 2023
Change from
Prior Year Percent
Change from
Prior Year
Other Income $ 554,102 $ 187,233 $ 366,869 196 %
Other income increased for the year ended December 31, 2024, as compared to year ended December 31, 2023, primarily due to a $519,368 decrease in commitment fee associated with the purchase of shares by an institutional investor for sale under a stock purchase agreement, a $280,433 increase in interest income on money market account, and a recognition of a $210,274 loss on retirement of certain expired patent applications and patents.
Other income increased for the year ended December 31, 2023, as compared to the year ended December 31, 2022, primarily due to an increase in interest income earned on money market account of $568,137 and a gain on disposal of fixed assets of $215,509, offset by an increase in commitment fee associated with the purchase of shares by an institutional investor for sale under a stock purchase agreement in the amount of $463,869.
Net Loss
For the Year
Ended
December 31, 2024
For the Year
Ended
December 31, 2023
Change from
Prior Year Percent
Change from
Prior Year
Net Loss $ 22,535,041 $ 21,038,032 $ 1,497,009 7 %
Net loss was $22,535,041 and $21,038,032 for the year ended December 31, 2024 and 2023, respectively, for an increase of $1,497,009 due primarily to increases in salary and benefits expenses, depreciation expense, prototype device development and wafer fabrication expenses, and consulting fees, recognition of loss on retirement of certain expired patent applications and patents, travel expenses, rent expense, property tax expenses, software expenses, laboratory and wafer fabrication materials and supplies expenses, investor relations expenses, and sales and marketing expenses. These increases were offset by decreases in non-cash stock option amortization expense, commitment fee associated with the purchase of shares by an institutional investor for sale under a stock purchase agreement, recruiting fees, accounting fees, and employee relocation expenses, and an increase in interest income on money market account.
Significant Accounting Policies
Our Company’s accounting policies are more fully described in Note 1 of Notes to Financial Statements. As disclosed in Note 1 of Notes to Financial Statements, the preparation of financial statements in conformity with accounting principles generally accepted in the United States requires management to make estimates and assumptions that affect the amounts reported in the financial statements and accompanying disclosures. Although these estimates are based on our management’s best knowledge of current events and actions our Company may undertake in the future, actual results could differ from the estimates.
Liquidity and Capital Resources
Our primary source of operating cash inflows was (i) proceeds from the sale of common stock to Lincoln Park (institutional investor) pursuant to purchase agreements with Lincoln Park and proceeds from sale of common stock by Roth Capital (investment banking company) pursuant to the at the market sale agreement with Roth Capital as described in Note 10 to the Financial Statements and (ii) proceeds received pursuant to the exercise of options and warrants.
On July 2, 2021, our Company filed a $100 million universal shelf registration statement which became effective on July 9, 2021, and expired on July 8, 2024. On July 26, 2024, the Company filed a new $100 million universal shelf registration statement which became effective on August 5, 2024. On October 4, 2021, our Company entered into the 2021 purchase agreement with Lincoln Park to sell up to $33 million of registered common stock over a 36-month period. All of the registered shares under the October 4, 2021 purchase agreement with Lincoln Park have been issued as of December 31, 2023. On February 28, 2023, our Company entered into the 2023 Purchase Agreement with Lincoln Park to sell up to $30 million of registered common stock over a 36-month period. As of the date of this filing, $0 remains on the 2023 Purchase Agreement. On March 17, 2025, our Company entered into the 2025 Purchase Agreement with Lincoln Park to sell up to $30 million of registered common stock over a 36-month period, subject to the conditions set forth therein. As of the date of this filing, $30 million remains on the 2025 Purchase Agreement. On December 9, 2022, our Company entered into the at the market sale agreement with Roth Capital, as sales agent, whereby pursuant to the at the market sale agreement, our Company may offer and sell up to $35 million in shares of our registered common stock, from time to time through Roth Capital. As of the date of this filing, $31.5 million remains available to our Company pursuant to the at the market sale agreement.
During the year ended December 31, 2024, the Company received $12,366,965 in proceeds pursuant to the 2023 Purchase Agreement with Lincoln Park, $1,779,976 in proceeds pursuant to the at the market sale agreement with Roth Capital, $337,350 in proceeds pursuant to the exercise of options and warrants and $63,884 in cash collections from customer contracts, of which $50,000 related to the proceeds received under a material supply and license agreement and $13,884 - to the proceeds received for a contact for processing work on the devices supplied by a customer. During the year ended December 31, 2023, the Company received $19,993,359 in proceeds pursuant to the 2021 purchase agreement and 2023 Purchase Agreement with Lincoln Park, $1,515,878 in proceeds pursuant to the at the market sale agreement with Roth Capital, $1,013,924 in proceeds pursuant to the exercise of options and warrants and $50,000 in a proceed received under a material supply and license agreement of which $39,875 is recorded as a contract liability as of December 31, 2023.
During the year ended December 31, 2024, our primary sources of cash outflows from operations included payroll, rent, utilities, payments to vendors including prototypes development and foundries expenses, laboratory and wafer fabrication materials and supplies expenses, and third-party service providers. During the year ended December 31, 2023, our primary sources of cash outflows from operations included payroll, rent, utilities, payments to vendors including prototypes development and foundries expenses and third-party service providers.
Sources and Uses of Cash
Our future expenditures and capital requirements will depend on numerous factors, including: the progress of our research and development efforts; the rate at which we can, directly or through arrangements with original equipment manufacturers, introduce and sell products incorporating our polymer materials technology; the costs of filing, prosecuting, defending and enforcing any patent claims and other intellectual property rights; market acceptance of our products and competing technological developments; and our ability to establish cooperative development, joint venture and licensing arrangements. We expect that we will incur approximately $1,727,000 of expenditures per month over the next 12 months.
We expect the proceeds received pursuant to the 2023 and the 2025 Lincoln Park purchase agreements and, the at the market sale agreement with Roth Capital, the exercise of options and warrants, and commercial operations to provide us with sufficient funds to maintain our operations over the next 12 months. Our current cash position enables us to finance our operations through April 2026 before we will be required to replenish our cash reserves. Our cash requirements are expected to increase at a rate consistent with our Company’s revenue growth as we expand our activities and operations with the objective of increasing our revenue stream from the commercialization of our electro-optic polymer technology. We currently have no debt to service. We expect that our cash used in operations will continue to increase during 2025 and beyond because of the following planned activities:
· The addition of management, sales, marketing, technical and other staff to our workforce;
· Increased spending for the expansion of our research and development efforts, including purchases of additional laboratory and production equipment;
· Increased spending in marketing as our products are introduced into the marketplace;
· Partnering with commercial foundries to implement our electro-optic polymers into accepted PDKs by the foundries;
· Developing and maintaining collaborative relationships with strategic partners;
· Developing and improving our manufacturing processes and quality controls; and
· Increases in our general and administrative activities related to our operations as a reporting public company and related corporate compliance requirements.
and 2025 Purchase Agreements with Lincoln Park
On February 28, 2023, our Company entered into the 2023 Purchase Agreement with Lincoln Park, pursuant to which Lincoln Park agreed to purchase from us up to $30 million of our common stock (subject to certain conditions) from time to time over a 36-month period. On March 17, 2025, our Company entered into the 2025 Purchase Agreement with Lincoln Park, pursuant to which Lincoln Park agreed to purchase from us up to $30 million of our common stock (subject to certain conditions) from time to time over a 36-month period. Pursuant to the 2025 Purchase Agreement, subject to the conditions set forth therein, Lincoln Park is obligated to make purchases as the Company directs in accordance with the 2025 Purchase Agreement, which may be terminated by the Company at any time, without cost or penalty. Sales of shares will be made in specified amounts and at prices that are based upon a look back formula for market prices of our common stock immediately preceding the sales to Lincoln Park.
There are no trading volume requirements or restrictions on the 2025 Purchase Agreement, and we will control the timing and amount of any sales of our common stock to Lincoln Park. Lincoln Park has no right to require any sales by us, but is obligated to make purchases from us as we direct in accordance with the 2025 Purchase Agreement. We can also accelerate the amount of common stock to be purchased under certain circumstances. There are no limitations on the use of proceeds, financial or business covenants, restrictions on future financings (other than restrictions on the Company’s ability to enter into a similar type of agreement or equity line of credit during the term, excluding an at-the-market transaction with a registered broker-dealer), rights of first refusal, participation rights, penalties or liquidated damages in the 2025 Purchase Agreement.
At the Market Sale Agreement - Roth Capital
On December 9, 2022, we entered into the at the market sale agreement with Roth Capital, as sales agent. Pursuant to the at the market sale agreement, our Company may offer and sell up to $35 million in shares of our common stock, from time to time through Roth Capital. Upon delivery of a placement notice based on our Company’s instructions and subject to the terms and conditions of the at the market sale agreement, Roth Capital may sell the shares by methods deemed to be an "at the market offering” as defined in Rule 415(a)(4) promulgated under the Securities Act, including sales made directly on or through The Nasdaq Capital Market, on any other existing trading market for the Company’s common stock, in negotiated transactions at market prices prevailing at the time of sale or at prices related to such prevailing market prices, or by any other method permitted by law, including negotiated transactions, subject to the prior written consent of our Company. We are not obligated to make any sales of shares under this agreement. The Company or Roth Capital may suspend or terminate the offering of shares upon notice to the other party, subject to certain conditions. Roth Capital will act as sales agent on a commercially reasonable efforts basis consistent with its normal trading and sales practices and applicable state and federal law, rules and regulations and the rules of Nasdaq. We have agreed to pay Roth Capital commissions for its services of acting as agent of 3.0% of the gross proceeds from the sale of the shares pursuant to the at the market sale agreement.
The amount of proceeds we receive from the at the market sale agreement, if any, will depend upon the number of shares of our common stock sold and the market price at which they are sold. There can be no assurance that we will be able to sell any shares under or fully utilize this agreement. Roth Capital is not required to sell any specific number of shares of our common stock under the agreement. We intend to use net proceeds from the at the market sale agreement for general corporate purposes, including, without limitation, sales and marketing activities, product development, making acquisitions of assets, businesses, companies or securities, capital expenditures, and for working capital needs.
We cannot assure you that we will meet the conditions of the 2025 Purchase Agreement with Lincoln Park in order to obligate Lincoln Park to purchase our shares of common stock, and we cannot assure you that we will be able to sell any shares under or fully utilize the at the market sale agreement with Roth Capital. In the event we fail to do so, and other adequate funds are not available to satisfy long-term capital requirements, or if planned revenues are not generated, we may be required to substantially limit our operations, which could result in our Company reducing some capital expenditures or reducing staff and discretionary costs.
Analysis of Cash Flows
For the year ended December 31, 2024
Net cash used in operating activities was $15,550,515 for the year ended December 31, 2024, primarily attributable to the net loss of $22,535,041 adjusted by $4,440,003 in options issued for services, $446,628 amortization of deferred compensation, $154,210 in common stock issued for services, $1,682,760 in depreciation expenses and patent amortization expenses, $192,487 amortization of right of use asset, $213,440 loss on disposal of property and equipment and retirement of certain expired patent applications and patents, $(15,189) in accounts receivable, $835,880 in prepaid expenses and other current assets, and ($965,693) in accounts payable, accrued bonuses, accrued expenses, contract liability and other liabilities. Net cash used in operating activities consisted of payments for research and development, legal, professional and consulting expenses, rent and other expenditures necessary to develop our business infrastructure.
Net cash used by investing activities was $2,697,899 for the year ended December 31, 2024, consisting of $430,501 in cost for intangibles and $2,267,398 in asset additions for the Colorado headquarter facility and labs.
Net cash provided by financing activities was $14,484,291 for the year ended December 31, 2024, and consisted of $337,350 in proceeds from exercise of options and warrants, $12,366,965 in proceeds from resale of common stock to an institutional investor and $1,779,976 in proceeds from at the market sale of common stock by an investment banking company.
On December 31, 2024, our cash and cash equivalents totaled $27,667,964, our assets totaled $37,807,983, our liabilities totaled $4,384,078 and we had stockholders’ equity of $33,423,905.
For the year ended December 31, 2023
Net cash used in operating activities was $12,236,024 for the year ended December 31, 2023, primarily attributable to the net loss of $21,038,032 adjusted by $6,459,387 in options issued for services, $262,697 amortization of deferred compensation, $673,578 in common stock issued for services, $1,119,141 in depreciation expenses and patent amortization expenses, $184,835 amortization of right of use asset, $215,509 gain on disposal of property and equipment, ($587,540) in prepaid expenses, $935,795 in accounts receivable, accounts payable, accrued bonuses, accrued expenses, deferred revenue and other liabilities. Net cash used in operating activities consisted of payments for research and development, legal, professional and consulting expenses, rent and other expenditures necessary to develop our business infrastructure.
Net cash used by investing activities was $2,957,201 for the year ended December 31, 2023, consisting of $307,687 in cost for intangibles, $3,292,224 in asset additions for the Colorado headquarter facility and labs offset by $642,120 in a loan repayment and $590 in proceeds on sale of property and equipment.
Net cash provided by financing activities was $22,523,161 for the year ended December 31, 2023, and consisted of $1,013,924 in proceeds from exercise of options and warrants, $19,993,359 in proceeds from resale of common stock to an institutional investor and $1,515,878 in proceeds from at the market sale of common stock by an investment banking company.
On December 31, 2023, our cash and cash equivalents totaled $31,432,087, our assets totaled $41,783,585, our liabilities totaled $5,349,771 and we had stockholders’ equity of $36,433,814.
Contractual Obligations
See “Note 8-Leases” of the notes to the financial statements contained elsewhere within this Annual Report on Form 10-K for a discussion of our operating lease for office and laboratory space.

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ITEM 7A. QUANTITATIVE AND QUALITATIVE DISCLOSURES ABOUT MARKET RISK
Item 7A. Quantitative and Qualitative Disclosures About Market Risk
At December 31, 2024, we had $27.6 million in cash and cash equivalents. For the purposes of this Item 7A. we consider all highly liquid instruments with maturities of three months or less at the time of purchase to be cash equivalents. The fair value of all of our cash equivalents is determined based on "Level 1” inputs, which are based upon quoted prices for identical or similar instruments in markets that are active. We do not use any market risk sensitive instruments to hedge any risks, and we hold no market risk sensitive instruments for trading or speculative purposes. We place our cash investments in instruments that meet credit quality standards. At December 31, 2024, we had deposits with a financial institution that exceeded the Federal Depository Insurance coverage.
Market Interest Rate Risk
We are exposed to market risk related to changes in interest rates. Our primary exposure to market risk is interest rate sensitivity, which is affected by changes in the general level of U.S. interest rates. If a 10% change in interest rates had occurred on December 31, 2024, this change would not have had a material effect on the fair value of our investment portfolio as of that date.
Due to the short holding period of our investments and the nature of our investments, we have concluded that we do not have a material financial market risk exposure.

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ITEM 8. FINANCIAL STATEMENTS AND SUPPLEMENTARY DATA
Item 8. Financial Statements and Supplementary Data
Our Financial Statements are attached as Appendix A (following Exhibits) and included as part of this Form 10-K Report. A list of our Financial Statements is provided in response to Item 15 of this Form 10-K Report.

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ITEM 9. CHANGES IN AND DISAGREEMENTS WITH ACCOUNTANTS
Item 9. Changes In and Disagreements With Accountants On Accounting and Financial Disclosure
None.

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ITEM 9A. CONTROLS AND PROCEDURES
Item 9A. Controls and Procedures.
Evaluation of Disclosure Controls and Procedures
As of December 31, 2024, our Company evaluated the effectiveness and design and operation of its disclosure controls and procedures. Our Company’s disclosure controls and procedures are the controls and other procedures that we designed to ensure that our Company records, processes, summarizes, and reports in a timely manner the information that it must disclose in reports that our Company files with or submits to the Securities and Exchange Commission. Our principal executive officer and principal financial officer reviewed and participated in this evaluation. Based on this evaluation, our Company made the determination that its disclosure controls and procedures were effective.
Management’s Annual Report on Internal Control Over Financial Reporting
Our management is responsible for establishing and maintaining adequate internal control over financial reporting, as such term is defined in Exchange Act Rules 13a-15(f) and 15d-15(f). Under the supervision and with the participation of management, including our principal executive officer and principal financial officer, we conducted an evaluation of the effectiveness of our internal controls over financial reporting based on the framework in Internal Control-Integrated Framework issued by the Committee of Sponsoring Organizations of the Treadway Commission ("COSO"). Based on this evaluation, management has concluded that our internal control over financial reporting was effective as of December 31, 2024.
The Company’s internal control over financial reporting includes policies and procedures that (1) pertain to maintenance of records that, in reasonable detail, accurately and fairly reflect transactions and dispositions of the assets of the Company; (2) provide reasonable assurance that transactions are recorded as necessary to permit preparation of financial statements in accordance with generally accepted accounting principles, and that receipts and expenditures of the Company are being made only in accordance with authorizations of management and directors of the Company; and (3) provide reasonable assurance regarding prevention or timely detection of unauthorized acquisition, use, or disposition of the Company’s assets that could have a material effect on the financial statements.
Our management, including our principal executive officer and principal financial officer, does not expect that our disclosure controls or our internal control over financial reporting will prevent or detect all errors and all fraud. A control system, no matter how well designed and operated, can provide only reasonable, not absolute, assurance that the control system’s objectives will be met. Internal control over financial reporting is a process that involves human diligence and compliance and is subject to lapses in judgment and breakdowns resulting from human failures. In addition, the design of any system of controls is based in part on certain assumptions about the likelihood of future events, and controls may become inadequate if conditions change. There can be no assurance that any design will succeed in achieving its stated goals under all potential future conditions.
Attestation Report of the Registered Public Accounting Firm
This Annual Report does not include an attestation report of our Company’s independent registered public accounting firm regarding internal control over financial reporting. Management’s report was not subject to attestation by our Company’s registered public accounting firm pursuant to rules of the Securities and Exchange Commission that permit our Company to provide only management’s attestation in this Annual Report.
Changes in Internal Control Over Financial Reporting
No change in our Company’s internal control over financial reporting occurred during our fourth fiscal quarter that has materially affected, or is reasonably likely to materially affect, our internal control over financial reporting.

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ITEM 9B. OTHER INFORMATION
Item 9B. Other Information
(a) Lincoln Park Purchase Agreement
On March 17, 2025, Lightwave Logic, Inc. (the “Company”), entered into a purchase agreement (the “Purchase Agreement”) with Lincoln Park Capital Fund, LLC (“Lincoln Park” or “Investor”) (each, a “Party”, and together, the “Parties”), which provides that, upon the terms and subject to the conditions and limitations set forth therein, the Company may sell to Lincoln Park up to $30,000,000 of shares (the “Purchase Shares”) of its common stock, par value $0.001 per share (the “Common Stock”).
Concurrently with entering into the Purchase Agreement, the Company also entered into a registration rights agreement with Lincoln Park, pursuant to which it agreed to provide Lincoln Park with certain registration rights related to the shares issued under the Purchase Agreement (the “Registration Rights Agreement”).
Beginning one business day following the date of satisfaction of certain conditions set forth in the Purchase Agreement (the “Commencement Date”) and over the thirty-six (36) month term following the Commencement Date, the Company has the right, but not the obligation, on any business day selected by the Company (each, a “Purchase Date”), to require Lincoln Park to purchase up to 250,000 shares of Common Stock (the “Regular Purchase Share Limit”) (each such purchase, a “Regular Purchase”). Lincoln Park’s committed obligation under each Regular Purchase shall not exceed $3,000,000 (subject to adjustment for any reorganization, recapitalization, non-cash dividend, stock split, reverse stock split or other similar transaction as provided in the Purchase Agreement), provided that the Parties may mutually agree at any time to increase the Regular Purchase Share Limit. The Company shall have the right to submit multiple Regular Purchase notices to the Investor as often as every business day, provided that the Company has not failed to deliver shares for the most recent prior Regular Purchase.
The purchase price per share for each such Regular Purchase (the “Purchase Price”) shall be equal to the lesser of: (i) the lowest sale price of the Common Stock during the Purchase Date and (ii) the average of the three (3) lowest closing sale prices of the Common Stock during the ten (10) business days immediately preceding such Purchase Date.
In addition to Regular Purchases and provided that the Company has directed a Regular Purchase in full, the Company in its sole discretion may require Lincoln Park on each Purchase Date to purchase on the following business day (each, an “Accelerated Purchase Date”) up to the lesser of: (i) three (3) times the number of shares purchased pursuant to such Regular Purchase and (ii) 30% of the trading volume on Nasdaq during all or, if certain trading volume or market price thresholds specified in the Purchase Agreement are crossed on the applicable Accelerated Purchase Date, the portion of the normal trading hours on the applicable Accelerated Purchase Date prior to such time that any one of such thresholds is crossed, which period of time on the applicable Accelerated Purchase Date (each such purchase, an “Accelerated Purchase”).
The purchase price per share for each such Accelerated Purchase shall be equal to the lesser of: (i) the closing sale price on the Accelerated Purchase Date or (ii) 96.5% of the Accelerated Purchase Date’s volume weighted average price (the “Accelerated Purchase Price”). The Parties may mutually agree to increase the number of shares of Common Stock sold to the Investor pursuant to any Accelerated Purchase.
The Company may also direct Lincoln Park, on any business day on which an Accelerated Purchase has been completed and all of the shares to be purchased thereunder have been properly delivered to Lincoln Park in accordance with the Purchase Agreement, to make additional purchases upon the same terms as an Accelerated Purchase, (an “Additional Accelerated Purchase”). The Company may direct multiple Additional Accelerated Purchases in a day provided that delivery of shares has been completed with respect to any prior Regular and Accelerated Purchases that Lincoln Park has purchased.
The purchase price of Regular Purchases, Accelerated Purchases and Additional Accelerated Purchases and the minimum closing sale price for a Regular Purchase will be adjusted for any reorganization, recapitalization, non-cash dividend, stock split, reverse stock split or other similar transaction occurring during the business days used to compute the purchase price. The aggregate number of shares that the Company can sell to Lincoln Park under the Purchase Agreement may in no case exceed 24,910,904 shares (subject to adjustment as described above), which is equal to approximately 19.99% of the shares of Common Stock outstanding immediately prior to the execution of the Purchase Agreement (the “Exchange Cap”), unless (i) stockholder approval is obtained to issue shares above the Exchange Cap, in which the Exchange Cap will no longer apply, or (ii) the average price of all applicable sales of Common Stock to Lincoln Park under the Purchase Agreement equals or exceeds $1.06 per share (subject to adjustment as described above) (which represents the lower of (A) the official closing price of the Common Stock on Nasdaq immediately preceding the signing of the Purchase Agreement and (B) the average official closing price of the Common Stock on Nasdaq for the five consecutive trading days ending on the trading day immediately preceding the date of the Purchase Agreement). In any event, the Purchase Agreement specifically provides that the Company may not issue or sell any shares of Common Stock under the Purchase Agreement if such issuance or sale would breach any applicable rules or regulations of Nasdaq.
The Purchase Agreement also prohibits the Company from directing Lincoln Park to purchase any shares of Common Stock if those shares, when aggregated with all other shares of Common Stock then beneficially owned by Lincoln Park, would result in Lincoln Park beneficially owning more than 4.99% of its outstanding shares of Common Stock, or at the option of Lincoln Park following the satisfaction of certain conditions, 9.99% of the outstanding shares of Common Stock.
On March 17, 2025, we issued 245,098 shares of Common Stock to Lincoln Park as an initial fee for its commitment to purchase shares of our common stock under the Purchase Agreement (the “Initial Commitment Shares”). We may issue up to 490,196 additional shares of Common Stock pro-rata in connection with the sale of Purchase Shares (the “Additional Commitment Shares” and together with the Initial Commitment Shares, the “Commitment Shares”).
The Purchase Agreement contains customary representations, warranties, covenants, Suspension Events (as defined in the Purchase Agreement), closing conditions, indemnification and termination provisions. During any Suspension Event specified in the Purchase Agreement, we may not initiate any sales to Lincoln Park until such Suspension Event is cured. Lincoln Park does not have the right to terminate the Purchase Agreement upon the occurrence of a Suspension Event. There are no restrictions on future financings, rights of first refusal, participation rights, penalties or liquidated damages in the Purchase Agreement or the Registration Rights Agreement, other than the Company’s agreement not to enter into any Variable Rate Transactions (as defined in the Purchase Agreement) with any third party, subject to certain exceptions set forth in the Purchase Agreement, over the thirty-six (36) month term following the date of the Purchase Agreement (irrespective of any earlier termination of the Purchase Agreement in accordance with the terms therein).
The Purchase Agreement may be terminated by the Company at any time after the Commencement Date, at its sole discretion, without any cost or penalty, by giving one business day notice to Lincoln Park to terminate the Purchase Agreement. Lincoln Park has covenanted not to cause or engage in any manner whatsoever, any direct or indirect short selling or hedging of the Common Stock.
The foregoing is a summary description of certain terms of the Purchase Agreement and the Registration Rights Agreement and, by its nature, is incomplete. Copies of the Purchase Agreement and the Registration Rights Agreement are filed as Exhibits 10.33 and 10.34 attached hereto. The foregoing descriptions of the Purchase Agreement and the Registration Rights Agreement are qualified in their entirety by reference to such exhibits. The Purchase Agreement and Registration Rights Agreement contain customary representations and warranties, covenants and indemnification provisions that the parties made to, and solely for the benefit of, each other in the context of all of the terms and conditions of such agreements and in the context of the specific relationship between the parties thereto. The provisions of the Purchase Agreement and the Registration Rights Agreement, including any representations and warranties contained therein, are not for the benefit of any party other than the parties thereto and are not intended as documents for investors and the public to obtain factual information about the current state of affairs of the parties thereto. Rather, investors and the public should look to other disclosures contained in the Company’s annual, quarterly and current reports it may file with the Securities and Exchange Commission.
The information contained in this Item 9B shall not constitute an offer to sell or the solicitation of an offer to buy the shares of the Company’s Common Shares discussed herein, nor shall there be any offer, solicitation or sale of the shares in any jurisdiction in which such offer, solicitation or sale would be unlawful prior to registration or qualification under the securities laws of any such jurisdiction.
(b) Trading Arrangements
During the three months ended December 31, 2024, none of our directors or officers (as defined in Rule 16a-1(f) under the Exchange Act) adopted or terminated any contract, instruction or written plan for the purchase or sale of our securities that was intended to satisfy the affirmative defense conditions of Rule 10b5-1(c) under the Exchange Act or any “non-Rule 10b5-1 arrangement” as defined in Item 408(c) of Regulation S-K.

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ITEM 10. DIRECTORS, EXECUTIVE OFFICERS AND CORPORATE GOVERNANCE
Item 10. Directors, Executive Officers and Corporate Governance.
Information required under this Item will be contained in our definitive proxy statement, which will be filed within 120 days of December 31, 2024, our most recent fiscal year end, and is incorporated herein by reference.

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ITEM 11. EXECUTIVE COMPENSATION
Item 11. Executive Compensation.
Information required under this Item will be contained in our definitive proxy statement, which will be filed within 120 days of December 31, 2024, our most recent fiscal year end, and is incorporated herein by reference.

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ITEM 12. SECURITY OWNERSHIP OF CERTAIN BENEFICIAL OWNERS
Item 12. Security Ownership of Certain Beneficial Owners and Management and Related Stockholder Matters.
Information required under this Item will be contained in our definitive proxy statement, which will be filed within 120 days of December 31, 2024, our most recent fiscal year end, and is incorporated herein by reference.

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ITEM 13. CERTAIN RELATIONSHIPS AND RELATED TRANSACTIONS
Item 13. Certain Relationships and Related Transactions, and Director Independence.
Information required under this Item will be contained in our definitive proxy statement, which will be filed within 120 days of December 31, 2024, our most recent fiscal year end, and is incorporated herein by reference.

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ITEM 14. PRINCIPAL ACCOUNTING FEES AND SERVICES
Item 14. Principal Accountant Fees and Services.
Information required under this Item will be contained in our definitive proxy statement, which will be filed within 120 days of December 31, 2024, our most recent fiscal year end, and is incorporated herein by reference.
PART IV

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ITEM 15. EXHIBITS, FINANCIAL STATEMENT SCHEDULES
Item 15. Exhibits and Financial Statement Schedules
(a) The following Audited Financial Statements are filed as part of this Form 10-K Report:
Report of Independent Registered Public Accounting Firm
Balance Sheets
Statements of Comprehensive Loss
Statement of Stockholders’ Equity
Statements of Cash Flows
Notes to Financial Statements
(b) The following exhibits are filed as part of this report.
Exhibit No.
Description of Exhibit
Location
3.1
Articles of Incorporation
Incorporated by reference to Company’s Form 10-SB as filed with the SEC on April 13, 2007
3.2
Certificate of Amendment to Articles of Incorporation
Incorporated by reference to Company’s Definitive Schedule 14C Information Statement as filed with the SEC on February 19, 2008
3.3
Certificate of Amendment to Articles of Incorporation
Incorporated by reference to Company’s Form S-1 Registration Statement as filed with the SEC on August 3, 2015
3.4
Second Amended and Restated Bylaws - June 18, 2024
Incorporated by reference to the Company’s Form 10-Q as filed with the SEC on June 25, 2024
4.1
Description of Registrant’s Securities
Filed herewith
10.1
Employee Agreement - Yves Lemaitre
Incorporated by reference to the Company’s Current Report on Form 8-K as filed with the SEC on December 13, 2024.
10.2
Employee Agreement - Thomas Zelibor
Incorporated by reference to the Company’s Current Report on Form 8-K as filed with the SEC on December 13, 2024
10.3
Employee Agreement - James Marcelli
Incorporated by reference to Company’s Form 10-Q as filed with the SEC on August 12, 2015
10.4
Employee Agreement Amendment - James Marcelli
Incorporated by reference to the Company’s Current Report on Form 8-K as filed with the SEC on April 20, 2021
10.5
Employee Agreement Amendment - James Marcelli
Incorporated by reference to the Company’s Current Report on Form 8-K as filed with the SEC on January 21, 2022
10.6
Employee Agreement Amendment - James Marcelli
Incorporated by reference to the Company’s Current Report on Form 8-K as filed with the SEC on April 27, 2023
10.7
Employee Agreement Amendment - James S. Marcelli
Incorporated by reference to the Company’s Current Report on Form 8-K as filed with the SEC on June 25, 2024
10.8
Employee Agreement - Michael Lebby
Incorporated by reference to the Company’s Current Report on Form 8-K as filed with the SEC on March 22, 2017
10.9
Employee Agreement Amendment - Michael Lebby
Incorporated by reference to the Company’s Current Report on Form 8-K as filed with the SEC on April 20, 2021
10.10
Employee Agreement Amendment - Michael Lebby
Incorporated by reference to the Company’s Current Report on Form 8-K as filed with the SEC on January 21, 2022
10.11
Employee Agreement Amendment - Michael Lebby
Incorporated by reference to the Company’s Current Report on Form 8-K as filed with the SEC on April 27, 2023
10.12
Employee Agreement Amendment - Michael Lebby
Incorporated by reference to the Company’s Current Report on Form 8-K as filed with the SEC on June 25, 2024
10.13
Form of Executive Paid Time Off Waiver Agreement
Incorporated by reference to the Company’s Form 10-K as filed with the SEC on March 16, 2018
10.14
Form of Director Agreement
Incorporated by reference to the Company’s Form 10-K as filed with the SEC on March 16, 2018
10.15
Form of Director and Officer Indemnification Agreement
Incorporated by reference to the Company’s Current Report on Form 8-K as filed with the SEC on January 21, 2022
10.16
Form of Director’s Non-Disclosure Agreement
Incorporated by reference to the Company’s Form 10-K as filed with the SEC on March 16, 2018
Exhibit No.
Description of Exhibit
Location
10.17
Operations Committee Charter
Incorporated by reference to the Company’s Form 10-Q as filed with the SEC on August 15, 2016
10.18
Statement of Operations Committee Work - Frederick J. Leonberger
Incorporated by reference to the Company’s Current Report on Form 8-K as filed with the SEC on April 3, 2017
10.19
Statement of Operations Committee Work - Siraj Nour El-Ahmadi
Incorporated by reference to the Company’s Form 10-K as filed with the SEC on March 31, 2021
10.20
2007 Employee Stock Plan
Incorporated by reference to Company’s Definitive Schedule 14C Information Statement as filed with the SEC on February 19, 2008
10.21
2007 Employee Stock Plan Amendment
Incorporated by reference to Company’s Definitive Schedule 14A Proxy Statement as filed with the SEC on July 22, 2014
10.22
2016 Equity Incentive Plan
Incorporated by reference to Appendix A to the Company’s Definitive Schedule 14A filed with the SEC on April 20, 2016
10.23
2016 Equity Incentive Plan Amendment
Incorporated by reference to Appendix A to the Company’s Definitive Schedule 14A filed with the SEC on April 12, 2019
10.24
Equity Incentive Plan Amendment No. 2
Incorporated by reference to Appendix A to the Company’s Definitive Schedule 14A filed with the SEC on April 14, 2023
10.25
Form of Non-qualified Stock Option Award Agreement - Employees
Incorporated by reference to the Company’s Annual Report on Form 10-K as filed with the SEC on March 17, 2017
10.26
Form of Non-qualified Stock Option Award Agreement - Executive Officers
Incorporated by reference to the Company’s Annual Report on Form 10-K as filed with the SEC on March 17, 2017
10.27
Form of Non-qualified Stock Option Award Agreement - Non Employee Directors
Incorporated by reference to the Company’s Annual Report on Form 10-K as filed with the SEC on March 17, 2017
10.28
Form of Restricted Stock Award Agreement -Non Employee Directors
Incorporated by reference to the Company’s Annual Report on Form 10-K as filed with the SEC on March 1, 2022
10.29
Lease Agreement dated October 26, 2017
Incorporated by reference to the Company’s Current Report on Form 8-K as filed with the SEC on November 2, 2017
10.30
First Amendment to the October 26, 2017 Lease Agreement dated November 22, 2022
Incorporated by reference to Company’s Form 10-K as filed with the SEC on March 1, 2023
10.31
Purchase Agreement, dated February 28, 2023, by and between the Company and Lincoln Park
Incorporated by reference to Company’s Form 10-K as filed with the SEC on March 1, 2023
10.32
Registration Rights Agreement, dated February 28, 2023, by and between the Company and Lincoln Park
Incorporated by reference to Company’s Form 10-K as filed with the SEC on March 1, 2023
10.33
Purchase Agreement, dated March 17, 2025, by and between the Company and Lincoln Park
Filed herewith
10.34
Registration Rights Agreement, dated March 17, 2025, by and between the Company and Lincoln Park
Filed herewith
14.1
Code of Ethics and Business Conduct
Incorporated by reference to the Company’s Form 10-K as filed with the SEC on March 16, 2018
16.1
Letter from Morison Cogen LLP to the Securities and Exchange Commission dated October 4, 2024
Incorporated by reference to the Company’s Current Report on Form 8-K as filed with the SEC on October 4, 2024
19.1
Insider Trading Policy
Incorporated by reference to the Company’s Form 10-K as filed with the SEC on February 29, 2024
21.1
Subsidiaries of the Registrant
Incorporated by reference to the Company’s Form 10-K as filed with the SEC on February 29, 2024
Exhibit No.
Description of Exhibit
Location
23.1
Consent of Independent Registered Public Accounting Firm - Stephano Slack LLC
Filed herewith
23.2
Consent of Independent Registered Public Accounting Firm - Morison Cogen LLP
Filed herewith
31.1
Certification pursuant to Rule 13a-14(a) of the Securities Exchange Act of 1934, as amended, executed by the Principal Executive Officer of the Company.
Filed herewith
31.2
Certification pursuant to Rule 13a-14(a) of the Securities Exchange Act of 1934, as amended, executed by the Principal Financial Officer of the Company.
Filed herewith
32.1
Certification pursuant to 18 U.S.C. Section 1350, as adopted pursuant to Section 906 of the Sarbanes-Oxley Act of 2002, executed by the Principal Executive Officer of the Company.
Furnished
32.2
Certification pursuant to 18 U.S.C. Section 1350, as adopted pursuant to Section 906 of the Sarbanes-Oxley Act of 2002, executed by the Principal Financial Officer of the Company.
Furnished
97.1
Compensation Clawback Policy
Incorporated by reference to the Company’s Form 10-K as filed with the SEC on February 29, 2024
101.INS
Inline XBRL Instance Document (the instance document does not appear in the Interactive Data File because its XBRL tags are embedded within the Inline XBRL document)
101.SCH
Inline XBRL Taxonomy Extension Schema Document
101.CAL
Inline XBRL Taxonomy Extension Calculation Linkbase Document
101.DEF
Inline XBRL Taxonomy Extension Definition Linkbase Document
101.LAB
Inline XBRL Taxonomy Extension Label Linkbase Document
101.PRE
Inline XBRL Taxonomy Extension Presentation Linkbase Document
Cover Page Interactive Data File (formatted as Inline XBRL and contained in Exhibit 101)