Changjun Xiong

Title: The Innovative Contributions of Changjun Xiong in Solar Cell Technology

Introduction

Changjun Xiong, an accomplished inventor based in Jiangsu, China, has made notable strides in the field of solar cell technology. With a focus on improving the efficiency and performance of solar cells, Xiong holds a patent that reflects his innovative spirit and dedication to advancing renewable energy solutions.

Latest Patents

Xiong's patent, titled "Thick-film conductive paste, and their use in the manufacture of solar cells," discloses a unique conductive paste specifically formulated for the creation of electrodes on solar cell surfaces. This conductive paste comprises conductive powder, mixed glass, and an organic phase. The patent details two types of glass components in the mixed glass: one being a tellurium glass with minimal lead content and the other being a lead silicate glass. The innovative formulation aims to enhance the electrode's performance, providing excellent electrical contact and high cell conversion efficiency. Furthermore, the invention offers a reliable manufacturing method for solar cells, resulting in improved adhesion and overall durability.

Career Highlights

Changjun Xiong is currently associated with Changzhou Fusion New Material Co., Ltd., where he contributes his expertise in material science and innovative processes. His work not only showcases his technical skills but also highlights his commitment to advancing sustainable technologies that can significantly impact the renewable energy sector.

Collaborations

Throughout his career, Xiong has collaborated with talented professionals in his field, including Kuninori Okamoto and Haidong Liu. These partnerships reflect a shared vision of innovation and a collaborative approach to solving complex challenges in solar technology and materials science.

Conclusion

In conclusion, Changjun Xiong's contributions to solar cell technology through his innovative patent and collaborative efforts position him as a significant figure in the renewable energy landscape. His work exemplifies the potential of innovations in material science to enhance the efficiency and reliability of solar energy systems, paving the way for a greener future.