Source: https://www.exponent.com/professionals/d/dandrade-brian
Timestamp: 2019-04-20 23:02:47+00:00

Document:
Dr. D'Andrade is a licensed professional electrical and computer engineer consultant with 20 years of experience in research, development, risk assessment, and FMEA in a variety of engineering fields including electrical, electronic, semiconductor, computer, software, and network. His expertise is used in a variety of litigation, mediation and arbitration matters including patent, copyright, trade secret, antitrust, and commercial. He investigates the technical aspects of claims of loss caused by flood, fire, power outage, natural disasters, misrepresentations, breach of contract, poor project management and poor quality of goods, for example.
Dr. D'Andrade applies engineering principles in his consulting practice to assess how electronic products, electrical systems or software systems fail due to thermal events, flooding or other stressors exceeding equipment specifications. His risk assessments based on compliance to product standards and FMEA for unique failure modes provide well founded data for decision makers. He has investigated losses in residential homes, apartments, universities, solar farms, data centers and commercial buildings. His technical investigations have included losses involving electrical and electronic systems including consumer appliances, hard disk drives, building wiring, stray voltage, shock and arc-flash hazards, biomedical devices, batteries, and motors.
He has 14 years of commercial experience in the semiconductor field including consulting on, research and development of light-emitting diodes (LEDs). He has reviewed numerous semiconductor recipes for GaN semiconductors and non-volatile (Flash) memories in trade-secret and patent matters. His wide band- gap semiconductor experience includes intellectual property litigation matters on MOCVD and MBE growth methods, doping and device architectures. His non-volatile memory work experience includes shallow trench isolation, interlayer dielectrics, spacers and other flash memory structures for either patent or trade secret litigation matters.
In addition, Dr. D'Andrade consults on software, network and computer engineering issues. In terms of software quality, Dr. D'Andrade helps clients navigate software requirements, FMEA, compliance, installation, breach of contract, fraudulent marketing and operational issues. He has assessed operational algorithms for embedded systems, various industrial control systems, nuclear facility safety controls and various consumer electronic device firmware. In terms of computer engineering, Dr. D'Andrade has experience with enterprise network architectures, cybersecurity, digital forensics and memory storage.
Dr. D'Andrade has examined smartphone operating systems (Android and iOS) and various apps to determine data usage, resolve IP address information, determine timestamping, location and various other smartphone log data. He has assessed apps to determine their source code and capabilities for intellectual property matters. He has examined various networked device traffic information to determine details of the communication between servers and clients including analyzing cell-tower communications, geolocation data and time logs.
D’Andrade B, Nauhaus G. Personal Protective Equipment and other Job Site Safety Issues presented at First Party Claims Conference 2018.
D’Andrade B, Sorini A, Lochner Z. Digital evidence presented at NJDA 51st Annual Convention, 2017.
Murphy PF, Kattamis AZ, Souri SJ, D’Andrade BW. Expert Roles in Antitrust Litigation. Michigan Defense Quarterly 2017; 33(3).
Murphy PF, Kattamis AZ, Souri SJ, D’Andrade BW. Role of technology experts in antitrust litigation. IDC Quarterly 2016; 26(4):38.
D'Andrade B, Schroeder D, Lester S, Miller J. The future is now - Data privacy & cybersecurity liability. FDCC 13th Annual Corporate Counsel Symposium, 2016.
D'Andrade B, Kuehn C, Brennan J. Software recognized as a key subsystem in electrosurgery systems by FDA. Electrical Engineering & Computer Science Newsletter, 2016.
Kothari-Phan S, Shai D, D’Andrade B. Software quality standards: An approach to reduce lifecycle costs. Electrical Engineering & Computer Science Newsletter, 2016.
D’Andrade B, Kattamis A, Murphy P. Flexible organic electronic devices on metal foil substrates for lighting, photovoltaic and other applications. Handbook of Flexible Organic Electronics: Materials, Manufacturing and Applications. Stergios Logothetidis (ed), Woodhead Publishing, 2014.
D’Andrade B. Characterization approaches for blue and white phosphorescent OLEDs: Luminescence: The instrumental key to the future of nanotechnology. Gilmore A (ed), Pan Stanford Publishing, 2014.
D’Andrade B. Lighting: Molecules that convert heat into light. Nature 2012: 492.
D’Andrade B. Errors in organic light emitting diode measurements. IEEE: Reliability Society 2011 Annual Technical Report, 2011.
D’Andrade B, Turner G, Kattamis A, Saleh M. Reliability of switches that generate current in the grounding conductor. IEEE: Reliability Society 2011 Annual Technical Report, 2011.
D’Andrade B, Kattamis AZ, Murphy PF, McNulty J, Souri S. Arcing enabled by tin whiskers. IEEE: Reliability Society 2010 Annual Technical Report, 2010.
Pinato A, Meneghini M, Cester A, Wrachien N, Tazzoli A, Zanoni E, Meneghesso G, D’Andrade B, Esler J, Xia S, Brown J. Improved reliability of organic light-emitting diodes with indium-zinc-oxide anode contact. IEEE International Reliability Physics Symposium, IRPS 2009, pp. 105–108, Montreal Canada, April 26–30, 2009.
D’Andrade B, Kattamis AZ. Flexible active-matrix organic light emitting displays. Silicon Valley Engineering Council Journal 2009; 1:18–21.
D’Andrade BW, Esler J, Lin C, Adamovich V, Xia S, Weaver MS, Kwong R, Brown J. White phosphorescent OLEDs. Maximizing the power efficacy lifetime product. Digest of Technical Papers of IMID/IDMC/Asia Display 2008.
D’Andrade BW, Weaver MS, Brown J. The great white organic hope. Photonics Spectra 2008; 42.
Giebink NC, D’Andrade BW, Weaver MS, Mackenzie PB, Brown JJ, Thompson ME, Forrest SR. Intrinsic luminance loss in phosphorescent small-molecule organic light emitting devices due to bimolecular annihilation reactions. Journal of Applied Physics 2008; 103(4):044509-044501.
D’Andrade BW, Weaver MS, Mackenzie PB, Yamamoto H, Brown JJ, Giebink NC, Forrest SR, Thompson ME. Blue phosphorescent organic light emitting device stability analysis. Proceedings, Society for Information Display 2008; 39.
D’Andrade BW, Esler J, Lin C, Weaver MS, Brown J. Extremely long lived white phosphorescent organic light emitting device with minimum organic materials. Proceedings, Society for Information Display 2008; 39.
D’Andrade BW, Esler J, Lin C, Adamovich V, Xia S, Weaver MS, Kwong R, Brown JJ. Realizing white phosphorescent 100 lm/W OLED efficacy. Proceedings, International Society for Optics and Photonics (SPIE) 2008; 7051.
D’Andrade B, Adamovich V, Weaver M, Lin C, Ma B, Mackenzie PB, Kwong R, Brown JJ. Phosphorescent OLEDs with saturated colors. Proceedings, International Society for Optics and Photonics (SPIE), 2007; 6655:645–647.
D’Andrade B, Canzler TW, Hack M. PIN OLEDs—Enhanced performance and lifetime by improved structures and materials. Proceedings, IMDC 2007.
D'Andrade B. White phosphorescent LEDs offer efficient answer. Nature Photonics 2007; 1(1):33–34.
D’Andrade BW, Tsai J-Y, Lin C, Weaver MS, Mackenzie PB, Brown JJ. Efficient white phosphorescent organic light-Emitting devices. Proceedings, Society for Information Display 2007; 38:1026–1029.
D’Andrade B, Weaver MS, Brown JJ. White phosphorescent organic light emitting devices. Proceedings, International Society for Optics and Photonics (SPIE) 2007; 6655:6332–6334.
Weaver MS, Adamovich VI, D’Andrade B, Ma B, Kwong RC, Brown JJ. Phosphorescent OLEDs for displays and lighting. Proceedings, IMDC 2007.
Weaver MS, Tung YJ, D’Andrade B, Esler J, Brown JJ, Lin C, Mackenzie PB, Walters RW, Tsai JY, Brown CS, Forrest SR, Thompson ME. Invited paper, Advances in blue phosphorescent organic light-emitting devices. Proceedings, Society for Information Display 2006; 37:127–130.
Canzler TW, Burghart M, Murano S, Blochwitz-Nimoth J, D’Andrade B, Hack M, Brown JJ. Highly power efficient organic light-emitting devices enabled by phosphorescent and p-i-n technologies. Proceedings, International Society for Optics and Photonics (SPIE) 2006; 6333:633311, 2006.
D’Andrade BW, Brown JJ. Organic light-emitting device luminaire for illumination applications. Applied Physics Letters 2006; 88(19):192908.
D’Andrade B, Alleyne B, Hack M, Hewitt R, Brown JJ. White phosphorescent organic light emitting devices for lighting applications. Proceedings, International Society for Optics and Photonics (SPIE) 2006; 6333:63330.
D’Andrade B, Brown JJ. White phosphorescent organic light emitting devices for display applications. Proceedings, International Society for Optics and Photonics (SPIE) 2006; 6225:622514, 2006.
D’Andrade BW, Esler J, Brown JJ. Organic light-emitting device operational stability at cryogenic temperatures. Synthetic Metals 2006; 156(5–6):405–408.
D’Andrade BW, Datta S, Forrest SR, Djurovich P, Polikarpov E, Thompson ME. Relationship between the ionization and oxidation potentials of molecular organic semiconductors. Organic Electronic 2005; 6(1):11–20.
Holmes RJ, Forrest SR, Sajoto T, Tamayo A, Djurovich PI, Thompson ME, Brooks J, Tung YJ, D’Andrade BW, Weaver MS, Kwong RC, Brown JJ. Saturated deep blue organic electrophosphorescence using a fluorine-free emitter. Applied Physics Letters 2005; 87(24):243507.
D’Andrade B, Adamovich V, Hewitt R, Hack M, Brown JJ. Phosphorescent organic light-emitting devices for solid-state lighting. Proceedings, International Society for Optics and Photonics (SPIE) 2005; 5937:1–7.
D’Andrade B, Holmes R, Forrest S, Li J, Thompson M. Triple-doped white organic light-emitting devices grown in vacuum. Proceedings, International Society for Optics and Photonics (SPIE) 2004; 5530:17–25.
D’Andrade BW, Forrest SR. White organic light-emitting devices for solid-state lighting. Advanced Materials 2004; 16(18):1585–1595.
D’Andrade BW, Holmes RJ, Forrest SR. Efficient organic electrophosphorescent white-light-emitting device with a triple doped emissive layer. Advanced Materials 2004; 16(7):624–628, 2004.
Brooks JJ, Kwong RC, Tung Y-J, Weaver MS, D’Andrade B, Adamovich V, Thompson ME, Forrest SR, Brown JJ. Comparison of blue-emitting phosphorescent dopants: Effect of molecular energy levels on device efficiency. Proceedings, International Society For Optics And Photonics (SPIE) 2004; 5519:35–41.
D’Andrade B, Forrest SR. Effects of exciton and charge confinement on the performance of white organic p-i-n electrophosphorescent emissive excimer devices. Journal of Applied Physics 2003; 94(5):3101–3109.
D’Andrade BW, Forrest SR, Chwang AB. Operational stability of electrophosphorescent devices containing p and n doped transport layers. Applied Physics Letters 2003; 83(19):3858–3860.
D’Andrade B, Forrest SR. Formation of triplet excimers and dimers in amorphous organic thin films and light emitting devices. Chemical Physics 2003; 286(2–3):321–335.
Adamovich VI, Cordero SR, Djurovich PI, Tamayo A, Thompson ME, D’Andrade BW, Forrest SR. New charge-carrier blocking materials for high efficiency OLEDs. Organic Electronics 2003; 4(2–3):77–87.
Holmes RJ, D’Andrade BW, Forrest SR, Ren X, Li J, Thompson ME. Efficient, deep-blue organic electrophosphorescence by guest charge trapping. Applied Physics Letters 2003; 83(18):3818–3820.
D’Andrade BW, Thompson ME, Forrest SR. Controlling exciton diffusion in multilayer white phosphorescent organic light emitting devices. Advanced Materials 2002; 14(2):147–151.
D’Andrade BW, Brooks J, Adamovich V, Thompson ME, Forrest SR. White light emission using triplet excimers in electrophosphorescent organic light-emitting devices. Advanced Materials 2002; 14(15):1032–1036.
Adamovich V, Brooks J, Tamayo A, Alexander AM, Djurovich PI, D’Andrade BW, Adachi C, Forrest SR, Thompson ME. High efficiency single dopant white electrophosphorescent light emitting diodes. New Journal of Chemistry 2002; 26(9):1171–1178.
D’Andrade BW, Baldo MA, Adachi C, Brooks J, Thompson ME, Forrest SR. High-efficiency yellow double-doped organic light-emitting devices based on phosphor-sensitized fluorescence. Applied Physics Letters 2001; 79(7):1045–1047.
Klauk H, D’Andrade B, Jackson TN. All-organic integrated emissive pixels. Annual Device Research Conference Digest 1999; 162–163.
Patent 9,385,167: OLED display architecture.
Patent 9,349,954: Stable blue phosphorescent organic light emitting devices, May 24, 2016.
Patent 9,112,171: Organic light emitting device and materials for use in same, August 18, 2015.
Patent 8,866,377: Long lifetime Phosphorescent Organic Light Emitting Device (OLED) Structures, October 21, 2014.
Patent 8,557,399: Stable blue phosphorescent organic light emitting devices, October 15, 2013.
Patent 8,513,658: White phosphorescent organic light emitting devices, August 20, 2013.
Patent 8,476,822: Saturated color organic light emitting, July 2, 2013.
Patent 8,372,526: Intermediate connector for stacked organic light emitting devices, February 12, 2013.
Patent 8,148,891: Electron impeding layer for high efficiency phosphorescent OLEDs, April 3, 2012.
Patent 8,080,937: OLED having a charge transport enhancement layer, December 20, 2011.
Patent 8,053,770: Emissive Layer Patterning for OLED, November 08, 2011.
Patent 8,040,053: Organic light emitting device architecture for reducing the number of organic materials, October 18, 2011.
Patent 7,800,295: Organic light emitting device having a microcavity, September, 2010 (with Mike Weaver).
Patent 7,776,456: Organic light emitting devices with an emissive region having emissive and non-emissive layers and method of making, August 17, 2010 (with Theodore Zhou).
Patent 7,728,512: Organic light emitting device having an external microcavity, June 1, 2010.
Patent 7,710,017: Organic light emitting device having a transparent microcavity, May, 2010 (with V. Adamovich).
Patent 7,285,907: High efficiency multi-color electro-phosphorescent OLEDs, October 2007 (with M. Thompson, S. Forrest).
Patent 7,261,954: Organic light emitting devices having carrier blocking layers comprising metal complexes, August 2007 (with M. Thompson, X. Ren, V. Adamovich, S. Cordero, B. Alleyne, S. Forrest).
Patent 7,179,543: Doping of organic opto-electronic devices to extend reliability, February 2007 (with S. Forrest, A. Chwang).
Patent 7,022,421: Organic light emitting devices having carrier blocking layers comprising metal complexes, April 2006 (with M. Thompson, X. Ren, V. Adamovich, S. Cordero, B. Alleyne, S. Forrest).
Patent 7,009,338: High efficiency multi-color electro-phosphorescent OLEDs, March 2006 (with M. Thompson, S. Forrest).
Patent 6,869,695: White light emitting OLEDs from combined monomer and aggregate emission, March 2005 (with M. Thompson, J. Brooks, V. Adamovich, S. Forrest).
Patent 6,863,997: White light emitting OLEDs from combined monomer and aggregate emission, March 2005 (with M. Thompson, J. Brooks, V. Adamovich, S. Forrest).
Patent Application No. US 2009121621: Saturated color organic light emitting devices, filed October 24, 2008.
Patent Application No. US 20070103066: Stacked OLEDs with a reflective conductive layer, filed November 4, 2005 (with R. Hewitt, K. Rajan, V. Adamovich).
Failure analysis of residential cable modems. Intellectual property/patent investigations of networks including Zigbee, Extranet, Internet, Intranet, VPN, WAN and LAN.
Policy based routing and source address routing.
Programmed routers and switches for small to medium size enterprises.
Power systems in warehouses, high-schools and skyscrapers.
Root cause analysis of damages due to fire, wind and water.
Operation and service of high and ultra high vacuum equipment, systems, and pumps.
Bonding and insulation piercing connectors.
Installation and Megger testing of power cables.
Root-cause analysis of power outages in large data center facilities.
Testing of miniature molded case breakers.
Analysis of thin film transistors (TFT), manufacturing and liquid crystals.
Design of novel outcoupling fixtures.
Report on the history, status, and differences in flat-panel displays.
Application of measurement standards to facilitate research goals.
Design of manufacturing equipment for illumination systems.
LED and OLED device analyses.
Intellectual property analysis of front-end and back-end processes, semiconductor materials and devices.
Production materials utilization and sourcing.
Semiconductor packaging design, processing, and failure analysis.
Copyright infringement analysis of source code.

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