Company Filing History:
Years Active: 2019-2021
Title: Innovations of Trevor Saxman in Poly-Amidoamine Polymers
Introduction
Trevor Saxman is an accomplished inventor based in Glendale, AZ (US). He has made significant contributions to the field of polymer chemistry, particularly in the development of unique self-assembled poly-amidoamine (PAMAM) polymers. With a total of 2 patents, his work has opened new avenues for applications in electrochemical reactivity.
Latest Patents
Trevor's latest patents focus on the synthesis of novel and unique PAMAM polymers. These polymers can be grown through a systematic alternation between ethylenediamine (EDA) and methacrylate. By leveraging the alternating terminal ends, successive generations G1 and G0.5 were combined under acidic conditions with Pluronic P123 as a liquid-crystal template. The resulting polymer was imaged using Transmission Electron Microscopy (TEM), revealing a circular and amorphous structure with no characteristic size, ranging between about 5 nm to about 600 nm. This polymer exhibits remarkable electrochemical activity that has not been seen in any previous generations of PAMAM. The applications of this electroactive poly-amidoamine organic polymer include its use as a new electron transfer reagent for amperometric biosensors.
Career Highlights
Trevor Saxman is currently affiliated with Arizona State University, where he continues to advance his research in polymer chemistry. His innovative work has garnered attention in both academic and industrial circles, contributing to the understanding and application of PAMAM polymers.
Collaborations
Trevor has collaborated with notable colleagues, including Jeffrey LaBelle and Brittney Haselwood. These partnerships have further enriched his research and development efforts in the field.
Conclusion
Trevor Saxman's contributions to the field of polymer chemistry, particularly through his innovative work on PAMAM polymers, highlight his role as a leading inventor. His patents and research have significant implications for the future of electrochemical applications.