Fangong Kong

Title: Fangong Kong: Innovator in Temperature Control Materials and Lignin Copolymers

Introduction

Fangong Kong is a notable inventor based in Jinan, China. He has made significant contributions to the field of temperature control materials and lignin copolymers. With a total of 2 patents, his work showcases innovative approaches to energy storage and material synthesis.

Latest Patents

Fangong Kong's latest patents include an "Energy-storing temperature control material and preparation method and application thereof." This invention provides a novel energy-storing temperature control material that utilizes organic synthetic fiber-based phase-change materials. The design allows for a three-dimensional dispersion effect, enhancing the mechanical properties and preventing liquid-crystal phase separation during phase changes. This technology is particularly suited for the climatic features of northern China.

Another significant patent is the "Process for producing an anionic lignin copolymer under aqueous acid conditions." This process involves the synthesis of anionic lignin copolymers with adjustable molecular weight, thermal stability, and solubility in water. These copolymers can serve as dispersants and flocculants in various industrial applications, including wastewater treatment and concrete admixtures.

Career Highlights

Fangong Kong has worked with reputable institutions such as Qilu University of Technology and FPInnovations. His experience in these organizations has allowed him to develop and refine his innovative ideas in material science.

Collaborations

Fangong has collaborated with notable colleagues, including Shoujuan Wang and Letian Qi. Their joint efforts have contributed to advancements in their respective fields.

Conclusion

Fangong Kong's contributions to the fields of temperature control materials and lignin copolymers highlight his innovative spirit and dedication to advancing material science. His patents reflect a commitment to developing solutions that address both environmental and industrial challenges.