Xinfeng Zhang

Title: Innovations of Xinfeng Zhang in Thermal and Electrical Conductivity

Introduction

Xinfeng Zhang is a prominent inventor based in Hong Kong, CN. He has made significant contributions to the field of electrical and thermal conductive materials. With a total of 3 patents, his work focuses on enhancing the conductivity of composite materials through innovative methods.

Latest Patents

One of Zhang's latest patents is titled "Electrical and thermal conductive paste composition and method of reducing percolation threshold and enhancing percolating conductivity using the same." This invention involves a paste composition that includes a wetting agent as a conduction promoter. The method allows for the production of a conductive paste that enhances the electrical and thermal conductivity of a polymer composite. By utilizing capillary forces from the wetting agent, the percolation threshold is significantly lowered, allowing for a more efficient conductive network with reduced filler content.

Another notable patent is "Three dimensional interconnected porous graphene-based thermal interface materials." This invention provides a thermal interface material that utilizes a three-dimensional interconnected porous graphene foam structure. The flexible architecture of the graphene sheets allows for high interfacial thermal conductance, effectively bridging the gap between heat sources and sinks.

Career Highlights

Xinfeng Zhang is affiliated with The Hong Kong University of Science and Technology, where he conducts research and develops innovative materials. His work has garnered attention for its practical applications in various industries, particularly in electronics and thermal management.

Collaborations

Zhang collaborates with notable colleagues, including Matthew Ming Fai Yuen and Kan Kan Yeung. Their combined expertise contributes to the advancement of research in conductive materials.

Conclusion

Xinfeng Zhang's innovative patents and research in electrical and thermal conductivity demonstrate his significant impact in the field. His contributions continue to pave the way for advancements in material science and engineering.