Company: XERI
Filing Date: 2025-10-02
Form Type: 10-K
Source: 0001477932-25-007303
Chunk: 9

Company: XERIANT, INC.
Filing Date: 2025-10-02
Form: 10-K
Item: Item 1
Chunk 9
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BOARD, offer eco-friendly solutions. These materials, often made from recycled components, provide superior strength, fire resistance, and water resistance without hazardous byproducts. Replacing gypsum-based drywall reduces environmental impact, aligns with green construction goals, and supports the industry’s shift toward sustainable, high-performance building materials.

The Need to Replace Wood Products in Construction

Wood products in construction raise safety and environmental concerns, driving the need for alternatives. Wood is susceptible to fire, rot, and pest damage, compromising structural integrity and safety. Environmentally, deforestation for timber contributes to habitat loss, biodiversity decline, and carbon emissions, with the construction industry consuming significant natural resources. Sustainable alternatives, like nanotechnology-enhanced composites such as NEXBOARD, offer superior fire resistance, durability, and eco-friendliness, often using recycled materials. Replacing wood reduces deforestation, lowers environmental impact, and aligns green construction goals, supporting a shift toward safer, sustainable building materials for a resilient future.

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Aerospace

The aerospace industry is undergoing a transformative phase, driven by innovative technologies that enhance performance, sustainability, and efficiency. Among these, advanced materials, particularly those enabled by nanotechnology, play a pivotal role, alongside additive manufacturing, artificial intelligence (AI), and sustainable propulsion systems. These advancements are reshaping aircraft design, manufacturing, and operations to meet the demands of a rapidly evolving global market. The aerospace industry continues to evolve and adapt as market conditions change and as technological innovation enables the development of aircraft with new capabilities, applications and business cases. Next-generation aircrafts are more efficient, sustainable, reliable, automated and safer through technological improvements in design optimization and modeling, composites and advanced materials, artificial intelligence (AI), sensors, autonomy, alternative propulsion systems and manufacturing processes. Many of the airframe configurations enabled by these developments are being designed for the emerging aviation market called Advanced Air Mobility (AAM), the integration of new aircraft designs and flight technologies to move people and cargo between places not usually served by existing ground or air transportation. Increasing automobile traffic congestion in many urban environments demands alternative transportation solutions such as eco-friendly air taxi services and urban air mobility to improve the quality of life for city residents.  In addition to being quieter with less or no carbon emissions, it is anticipated that these new aircraft will have lower operating, maintenance, and repair costs compared with other aircraft, including helicopters. For widespread adoption, it is critical that AAM services provide consumers with a strong value proposition to become an alternative to traditional ground transportation.