Company Filing History:
Years Active: 2009
Title: Innovations by Wing-Yin Kwok in Conductive Flexible Textiles
Introduction
Wing-Yin Kwok is an innovative inventor based in Kowloon, China. He has made significant contributions to the field of conductive flexible textiles, particularly through his patented methods. His work focuses on creating advanced textile arrays that can be utilized in various applications, including sensors.
Latest Patents
Wing-Yin Kwok holds a patent for a "Method for the production of conductive flexible textile arrays." This method involves applying an oxidizing agent to selected areas of the textile, followed by coating the textile with pyrrole through vapor deposition. This process results in a conductive coated textile that features a polypyrrole network. The method also includes stabilizing the conductive coated textile and forming flexible textile arrays that serve as sensors. The production method allows for careful control over the degree of polymerization of the conjugated polymer, morphology, and capacitance delay rate. Consequently, this leads to the creation of stable flexible textile sensors with varying levels of sensitivities and conductivities, making them particularly useful for designed applications.
Career Highlights
Wing-Yin Kwok is affiliated with The Hong Kong Polytechnic University, where he continues to advance research in textile technology. His innovative approach has garnered attention in the academic and industrial sectors, contributing to the development of smart textiles.
Collaborations
Wing-Yin Kwok has collaborated with notable colleagues, including Xiaoming Tao and Sarah Mei-Yi Leung. Their combined expertise enhances the research and development of conductive textiles, fostering innovation in this emerging field.
Conclusion
Wing-Yin Kwok's contributions to the field of conductive flexible textiles exemplify the intersection of innovation and practical application. His patented methods pave the way for advancements in sensor technology, showcasing the potential of smart textiles in various industries.