Yun-Sheng Chan

Title: Innovations of Yun-Sheng Chan in Microfluidics

Introduction

Yun-Sheng Chan is a prominent inventor based in Hualien, Taiwan. He has made significant contributions to the field of microfluidics, particularly through his innovative patents. With a total of 2 patents, Chan's work focuses on advancing biomedical testing technologies.

Latest Patents

Yun-Sheng Chan's latest patents include a microelectrode device, a microfluidic chip, and a microfluidic examination method. The microfluidic chip features a top plate and a microelectrode dot array that consists of several microelectrode devices. Each device is equipped with a microfluidic electrode, a heating electrode, and a control circuit. The control circuit is designed to manage microfluidic control and location sensing, as well as temperature control. This innovative design allows for precise movement and detection of samples within the microfluidic system.

Another notable patent is the microfluidic test system and method. This system includes a control apparatus that stores a test protocol for biomedical tests. The microfluidic chip, which is part of this system, also features a top plate and a series of microelectrode devices. The control apparatus generates control signals based on the test protocol, enabling accurate detection and analysis of test samples.

Career Highlights

Yun-Sheng Chan is affiliated with National Yang Ming Chiao Tung University, where he continues to contribute to research and development in microfluidics. His work has garnered attention for its potential applications in biomedical testing and diagnostics.

Collaborations

Chan collaborates with various researchers in his field, including his coworker Chen-Yi Lee. Their joint efforts aim to push the boundaries of microfluidic technology and enhance its practical applications.

Conclusion

Yun-Sheng Chan's innovative contributions to microfluidics demonstrate his commitment to advancing biomedical technologies. His patents reflect a deep understanding of the complexities involved in microfluidic systems, paving the way for future developments in this critical area of research.