Company Filing History:
Years Active: 2018-2024
Title: Bor-Ran Li: Innovator in Microfluidic Technology
Introduction
Bor-Ran Li is a prominent inventor based in Hsinchu, Taiwan. He has made significant contributions to the field of microfluidics, holding a total of 4 patents. His innovative designs focus on enhancing the efficiency and functionality of microfluidic systems.
Latest Patents
One of his latest patents is titled "Cascaded design microfluidic structure with step difference." This invention provides a microfluidic structure for sorting targeted substances. The structure includes an inlet portion with at least one fluid input port and an outlet portion with multiple fluid output ports. It features a first annular flow channel that is rotatably extended and connected in series to a second annular flow channel, creating an S-shaped track. This design allows for a height difference in the cross-sections of the channels, optimizing the sorting process.
Another notable patent is the "Impedance-type chip for real-time sensing sweat pressure and method thereof." This invention includes a micro-control system designed to monitor the physiological state of a subject. The impedance-type chip consists of a substrate, comb-shaped electrodes, and a microfluidic channel plate, all working together to provide real-time data on sweat pressure.
Career Highlights
Bor-Ran Li has worked with esteemed organizations such as National Yang Ming Chiao Tung University and Ipreg Inc. His experience in these institutions has allowed him to develop and refine his innovative ideas in microfluidic technology.
Collaborations
He has collaborated with notable coworkers, including Yaw-Kuen Li and Chia-Yu Chang. Their combined expertise has contributed to the advancement of research and development in their field.
Conclusion
Bor-Ran Li is a distinguished inventor whose work in microfluidic technology has led to significant advancements in the field. His innovative patents and collaborations highlight his commitment to improving the efficiency of microfluidic systems.