Matthew Mosteller is an associate in the Washington, D.C., office of Fish & Richardson P.C., where he has several years’ experience representing plaintiffs and defendants in complex patent litigation in the U.S. district courts, the International Trade Commission, and the U.S. Patent and Trademark Office. His experience spans numerous technology areas ranging from electrical and computer engineering to biomedical devices. Amongst others, Mr. Mosteller has advised clients in matters relating to integrated circuit design, mobile device hardware and software, computer memory architectures, cloud-based computing, data mining and big data, human-computer interfaces, software-as-a-service (SaaS), speech recognition and interfaces, search engines, data compression, database management, micro-electro-mechanical systems (MEMS), fiber optics, and implantable devices and prostheses.
His legal experience encompasses all stages of litigation, from pre-suit investigations through fact and expert discovery, claim construction, dispositive motions, and trial. As a registered patent attorney, Mr. Mosteller also has extensive experience with all phases of patent prosecution, inter partes review proceedings, and patent appeals. He has helped clients varying from individual inventors and pre-funding startups to large public companies in developing their patent portfolios and prosecuting patents for their most important technical innovations.
Mr. Mosteller’s background includes design and fabrication experience with the MEMS Sensors and Actuators Laboratory (MSAL) and Maryland Nanocenter FabLab at the University of Maryland, as well as graduate-level research and coursework in device physics and fabrication, microfluidics, biosensing, and signal processing. He is also the author of several peer-reviewed publications relating to electrically-enhanced biosensing and treatment in microfluidic devices, and integrated biomedical system design.
J.D., Georgetown University Law Center 2018
M.S., University of Maryland 2012
B.S., University of Maryland 2010
- California 2019
- District of Columbia 2021
- U.S. Court of Appeals for the Federal Circuit 2019
- U.S. Patent and Trademark Office 2013
- “An Optical Microfluidic Platform for Spatiotemporal Biofilm Treatment Monitoring,” Journal of Micromechanics and Microengineering, vol. 26, (December 2015)
- “Platforms for Engineering Biomedical Experiments,” IEEE Systems Journal, Vol.PP (September 2014)
- “Platforms for Engineering Experimental Biomedical Systems,” INCOSE Insight, Vol. 15, Iss. 4 (December 2012)
- “Platforms for Engineering Experimental Biomedical Systems,” 22nd Annual INCOSE International Symposium, Rome, Italy (July 9-12, 2012)
- “Microfluidic Biofilm Observation, Analysis and Treatment (Micro-BOAT) Platform,” 2012 Solid State Sensor, Actuator, and Microsystem Workshop, Hilton Head, SC (June 3-7, 2012)
- “Growth and Optical Monitoring of Bacterial Biofilms in Microfluidic Integrated Systems,” The Mid-Atlantic Micro/Nano Alliance Symposium, Annapolis, MD (March 27, 2012)
- “Growth and Optical Monitoring of Bacterial Biofilms in Microfluidic Integrated Systems,” 2011 Fischell Festival, College Park, MD (October 20, 2011)
- “Development of a Surface Mount Hybrid Low Frequency, Low Intensity Vibration Energy Scavenger,” PowerMEMS 2010, Leuven, Belgium (November 30 – December 3, 2010)
- “Assessing and Understanding Deaf Individuals’ Occupations,” National Conference for Undergraduate Research, Missoula, MT, (April 15-17, 2010)