Company Filing History:
Years Active: 2015
Title: King Keung Sin: Innovator in Signal Generation and Localization
Introduction
King Keung Sin is a notable inventor based in Hong Kong, CN. He has made significant contributions to the field of bioassays through his innovative methods of signal generation and localization. His work aims to improve the readability of signals in solid phase detection systems, which is crucial for various applications in diagnostics.
Latest Patents
King Keung Sin holds a patent for "Methods of signal generation and signal localization for improvement of signal readability in solid phase based bioassays." This patent describes a method for generating and localizing a signal in a solid phase substrate detection system. The process involves applying a solution of target material to a substrate and binding the target with a specific affinity molecule that has an attached label. The label consists of multiple signal precursor molecules. The method also includes applying a carrier to the substrate and treating the label to convert the signal precursor molecules into signal generating molecules. The carrier may contain a solvent for the label and a thickener for localizing the signal. Additionally, the patent outlines a test device for detecting targets in fluid samples and a kit for determining the presence of targets in such samples. King Keung Sin has 1 patent to his name.
Career Highlights
King Keung Sin is currently associated with Supernova Diagnostics Inc., where he continues to advance his research and development efforts. His work is pivotal in enhancing the accuracy and efficiency of diagnostic tools used in various medical applications.
Collaborations
He collaborates with talented individuals such as Ling Wai Wong and Pui Yee Cangel Chan, contributing to a dynamic research environment that fosters innovation and creativity.
Conclusion
King Keung Sin's contributions to the field of signal generation and localization in bioassays highlight his role as a significant inventor. His innovative methods and collaborative efforts continue to pave the way for advancements in diagnostic technologies.