Company Filing History:
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1 out of 1 Years Active: 2014-2022
Title: The Innovations of Jeffrey Warrender
Introduction
Jeffrey Warrender is an accomplished inventor based in Averill Park, NY (US). He has made significant contributions to the field of semiconductor technology, holding a total of 2 patents. His work focuses on innovative processes that enhance the fabrication and functionality of semiconductor devices.
Latest Patents
Warrender's latest patents include a process for fabricating semiconductor nanofibers and a semiconductor optoelectronic device. The process for fabricating semiconductor nanofibers involves producing these materials at room temperature within a pressure vessel. In this method, a semiconductor wafer and metal catalyst are introduced into the vessel, which is then filled with a background gas. A nanofiber growth element is also added, and the semiconductor may be ablated by a laser. The semiconductor remains in the pressure vessel for an extended period until nanofiber growth is observed. His second patent, the semiconductor optoelectronic device, describes a manufacture that responds electrically to incident photons. This device includes a semiconductor substrate and a chalcogen-doped semiconductor active layer, which interacts with photons to create a variation in current between two contacts.
Career Highlights
Throughout his career, Warrender has worked with notable organizations, including the U.S. Government as represented by the Secretary of the Army and Harvard College. His experience in these institutions has allowed him to develop and refine his innovative ideas in semiconductor technology.
Collaborations
Warrender has collaborated with several professionals in his field, including Quentin Hudspeth and Aurore J Said. These collaborations have contributed to the advancement of his research and inventions.
Conclusion
Jeffrey Warrender's contributions to semiconductor technology through his patents and collaborations highlight his role as a significant inventor in the field. His innovative processes continue to influence the development of advanced semiconductor devices.