Weigen Chen

Title: Weigen Chen: Innovator in High-Voltage Capacitors and Hydrogen Gas Sensing Materials

Introduction

Weigen Chen is a prominent inventor based in Chongqing, China. He has made significant contributions to the fields of high-voltage capacitors and hydrogen gas sensing materials. With a total of 2 patents, his work showcases innovative methods and systems that enhance the performance and reliability of electronic components.

Latest Patents

One of Weigen Chen's latest patents is titled "Method and system for initial self-healing type classification of metallized film capacitors." This invention relates to the technical field of high-voltage capacitors. The method involves applying voltages at different ramp rates to metallized film capacitors, determining their voltage bearing range, and establishing a database for initial self-healing energy. This classification system combines recovery conditions with performance data to improve the reliability of capacitors.

Another notable patent is the "Method for preparation of plasma-treated nanofiber-based hydrogen gas sensing material." This preparation method includes several steps, such as stirring a mixed solution, electrospinning to create fibers, and subjecting the material to vacuum argon plasma treatment. The resulting hydrogen gas sensing material exhibits a large specific surface area and demonstrates rapid response and high sensitivity to hydrogen gas.

Career Highlights

Weigen Chen is affiliated with Chongqing University, where he conducts research and development in innovative technologies. His work has garnered attention for its practical applications in the electronics industry, particularly in enhancing the performance of capacitors and gas sensors.

Collaborations

Weigen Chen collaborates with notable colleagues, including Feipeng Wang and Jian Li. Their combined expertise contributes to advancing research in their respective fields.

Conclusion

Weigen Chen's innovative patents and research efforts significantly impact the fields of high-voltage capacitors and hydrogen gas sensing materials. His contributions continue to pave the way for advancements in electronic components and sensing technologies.