Zan-Xiang Wang

Title: Innovations of Zan-Xiang Wang in Photocatalytic Hydrogen Production

Introduction

Zan-Xiang Wang is a notable inventor based in Hsinchu, Taiwan. He has made significant contributions to the field of photocatalytic hydrogen production. His innovative work focuses on developing composite materials that enhance the efficiency of hydrogen production through photocatalysis.

Latest Patents

Wang holds a patent for a composite material designed for photocatalytic hydrogen production. This patent, titled "Composite material for photocatalytic hydrogen production and photocatalytic hydrogen production catalyst," describes a composite that includes a plurality of inorganic semiconductor particles and a linear conjugated polymer material. The conductive band of the inorganic semiconductor particles is higher than the reduction potential of hydrogen. The linear conjugated polymer material is compounded on the surface of each inorganic semiconductor particle, ensuring that the energy level difference between the lowest unoccupied molecular orbital (LUMO) of the polymer and the conductive band of the semiconductor is within 2 eV. This innovative approach aims to improve the efficiency of hydrogen production.

Career Highlights

Zan-Xiang Wang is affiliated with Tsinghua University, where he conducts research and develops new technologies. His work has garnered attention for its potential applications in sustainable energy solutions. Wang's research is pivotal in advancing the field of photocatalysis, particularly in hydrogen production.

Collaborations

Wang has collaborated with notable colleagues, including Li-Yu Ting and Ho-Hsiu Chou. These collaborations have contributed to the development of innovative technologies and have furthered research in the field of photocatalytic materials.

Conclusion

Zan-Xiang Wang's contributions to photocatalytic hydrogen production highlight the importance of innovation in sustainable energy. His patented composite material represents a significant advancement in the field, showcasing the potential for improved hydrogen production methods.