Company Filing History:
Years Active: 2014-2017
Title: Terrence Chen: Innovator in Microparticle Technology
Introduction
Terrence Chen is a notable inventor based in West Hills, California. He has made significant contributions to the field of microparticle technology, particularly in the area of binding interactions. With a total of two patents to his name, Chen's work has the potential to impact various biological applications.
Latest Patents
Terrence Chen's latest patents include innovative methods for screening binding interactions using sets of microparticles and unique probes. The first patent describes a kit designed for measuring binding interactions through multiple sets of microparticles, each possessing identifiable characteristics. This kit includes subsets of microparticles, with at least one unique probe that serves as a binding partner for target molecules in biological samples. Specifically, this invention facilitates DNA-based tissue-typing antigens in donor or recipient tissues. The second patent outlines similar methods for detecting tissue-typing antigens using these microparticle sets, further emphasizing the versatility and importance of his work.
Career Highlights
Chen is currently employed at One Lambda, Inc., where he continues to develop and refine his innovative technologies. His expertise in microparticle applications has positioned him as a key player in the field, contributing to advancements that could enhance diagnostic and therapeutic processes.
Collaborations
Some of Terrence Chen's coworkers include Jar-How Lee and Thoa Nong, who collaborate with him on various projects within the company. Their combined efforts contribute to the ongoing research and development in microparticle technology.
Conclusion
Terrence Chen's contributions to the field of microparticle technology through his patents and work at One Lambda, Inc. highlight his role as an influential inventor. His innovative methods for screening binding interactions have the potential to advance biological research and applications significantly.