Introduction:

Name:Zhaoqun Pan

Title: Associate Researcher

E-mail: cezqpan@scut.edu.cn

Personal homepage:

Supervisor: Master’s Supervisor

Area: 

Focusing on silicone materials as the primary research direction， an experimental platform for the key technologies of synthetic modification has been established. Addressing the needs of the electronics and electrical appliances sectors， research is conducted at the molecular level， concentrating on the development of several critical chemicals. The initiative emphasizes the field of silicone materials and establishes a platform for technical innovation in silicone synthesis and modification. In response to the evolving demand for functional chemicals in the electronics and electrical appliances industries， research and development， along with the industrialization of specialized silicon materials， are pursued from the perspective of the relationship between molecular structure and chemical function.

Education:

1999.09-2002.06  Ph.D. Degree in Chemical Engineering.School of Chemical Engineering， South China University of Technology

1996.09-1999.06  M.S. Degree in Metallurgical Engineering. School of Metallurgical Engineering， Central South University

Research interests:

(1)Synthesis and modification of silicone oil and silicone resin; 

(2)Investigation into the synthesis and mechanisms of silicone rubber adhesion promoters， focusing on their role in bonding high-temperature addition silicone resin and room-temperature addition silicone resin to various substrates. This includes the development of specialized adhesion promoters for metal substrates such as copper， aluminum， and stainless steel， as well as non-metallic substrates like high-temperature nylon PPA， epoxy resin， and PP; 

(3)Advancement of silicone encapsulation adhesives and their applications in electronic devices， particularly in LEDs; 

()Epoxy modification of silicone， including the synthesis and characterization of hyperbranched silicone resin， and the toughening mechanisms of epoxy resin at low temperatures.

Representative publications :

(1) Zhaoqun Pan*， Liangwei Lin， Zhenhui Cao. The synthesis of an epoxy-terminated hyperbranched polysiloxane toughener and its application at low temperature [J]， Reactive and Functional Polymers， 202， 195(C): 105828.  DOI: 10.1016/j.reactfunctpolym.202.1058282) 

(2) Zhaoqun Pan*， Liangwei Lin， Wenhui Luo. The synthesis of a secondary branched epoxy-modified silicone resin and its application at low temperature [J]， Journal of Applied Polymer Science， 202， 11(9): e55020.  DOI: 10.1002/app.550203)

(3) Zhaoqun Pan*， Liuqing Zhu. Synthesis of a siloxane oligomer containing methyl acryloxy group for promoting the adhesion of addition-type silicone rubber to copper plate [J]， International Journal of Adhesion and Adhesives， 2023， 123(C): 103355.  DOI /10.1016/j.ijadhadh.2023.103355) 

() Zhaoqun Pan*， Zhun Zhang， Yiting Mo， Yu Cheng， Liuqing Zhu. A Novel Composite Epoxy Resin Toughened By Epoxy‑Terminated Phenyl Tris (Dimethylsiloxy) Silane at Low Temperature [J]， Polymer Bulletin， 2023， 80(): 023-03.  DOI /10.1007/s00289-022-02-9. 5) 

(5) Zhaoqun Pan*， Bingsheng Huang， Liqiang Zhu & Kelin Zeng. Synthesis of siloxane oligomers containing boron and epoxy groups for promoting the adhesion of additioncurable silicone rubber to PPA and copper plate， Journal of Adhesion Science and Technology [J]， 2021， 35(6): 626-60.  DOI 10.1080016923.2020.1816780