Company Filing History:
Years Active: 2021
Title: Thomas Defferriere: Innovator in Optoelectronic Memristor Devices
Introduction
Thomas Defferriere is a prominent inventor based in Cambridge, MA (US). He has made significant contributions to the field of optoelectronics, particularly through his innovative work on memristor devices. His research focuses on the integration of solid electrolytes with controllable optical properties, which has potential applications in various electronic systems.
Latest Patents
Thomas Defferriere holds a patent for "Optoelectronic memristor devices including one or more solid electrolytes with electrically controllable optical properties." This invention involves a structure that includes a first electrode, a second electrode, and a solid electrolyte positioned between them. The solid electrolyte exhibits an electronic conductivity ranging from about 10 Siemens/cm to about 10 Siemens/cm at room temperature. The electrodes can be optically transparent at specific wavelengths, allowing for advanced functionalities. By applying a direct current (DC) voltage across the solid electrolyte, the device can induce changes in both electrical resistance and optical properties, showcasing its versatility in optoelectronic applications.
Career Highlights
Defferriere is affiliated with the Massachusetts Institute of Technology, where he continues to push the boundaries of research in optoelectronics. His work has garnered attention for its innovative approach to integrating electrical and optical functionalities in memristor devices.
Collaborations
Throughout his career, Thomas has collaborated with notable colleagues, including Dmitri Kalaev and Harry L Tuller. These partnerships have contributed to the advancement of research in the field and have fostered a collaborative environment for innovation.
Conclusion
Thomas Defferriere is a key figure in the development of optoelectronic memristor devices, with a focus on integrating solid electrolytes with controllable optical properties. His contributions to the field are paving the way for future advancements in electronic systems.