中国·yl23455永利(中国)股份有限公司官网
Chinese

Professor

刘峰

2023-09-04

中国·yl23455永利(中国)股份有限公司官网



Name: Feng Liu

Gender: Male

Job title: Professor, Ph. D supervisor

Email Address: liuf@ncu.edu.cn

Education and Work Experience

1999.09-2002.07: Nanchang University, Master degree, majoring in organic chemistry, focusing on researches in organosilicon chemistry, supervised by Prof. Zhaogui Zhang.

2002.09-2006.03: Changchun Institute of Applied Chemistry, Chinese Academy of Science, Ph. D, majoring in organic chemistry, focusing on researches in polyimide materials, supervised by Prof. Mengxian Ding

2006.06-2010.12: Department of Chemistry, School of Science, Nanchang University, lecturer

2009.06-2012.01: College of Chemistry and Chemical Engineering, Nanjing University, Postdoctoral, focusing on researches in photovoltaic encapsulating materials, supervised by Prof. Xiaozeng You

2010.12-2015.12: School of Chemistry, Nanchang University, associate professor

2014.05-2015.06: Department of Chemistry, University of Florida, visiting research in Prof. Stephan. A. Millers lab, focusing on researches in functional group metathesis polymerization and bio-renewable polymers

2015.12- present: School of Chemistry and Chemical Engineering, Nanchang University, professor

TeachingB.S courses including Organic Chemistry, Polymer Chemistry, Organosilicon Chemistry

M.S courses including Contemporary Organic Synthesis, Natural Organic Chemistry, Organometallic Chemistry

Ph. D courses including Frontier Seminars in Industrial Catalysis

Research fields:

  1. High performance polyimide materials

Signal loss and delay caused by dielectric insulants have become increasingly remarkable with the rapid development of microelectronic device miniaturization and high frequency telecommunication, which severely limiting the microelectronic industrial advancement in high density interconnection according to Moores Law. Therefore, it remains an urgently important research topic of how to reduce the dielectric constant (Dk) and dielectric loss (Df) of polyimide that is prevalent substrate in state-of-the-art flexible microelectronic devices. Meanwhile, transparency of polyimide plays important role in determining the device efficiency of thin film optoelectronics and flexible display, so how to improve the optical transparency of polyimide is an important research topic. The researches on the optimization of polyimide in dielectric and optical properties involve polymer structural design, monomer and polymer synthesis, structure-properties relationship exploration and device performance investigation, requiring interdisciplinary studies of organic synthesis, material physics and chemistry, microelectronics and optoelectronics. Our works focus on alicyclic and fluorinated polyimides employing the alicyclic structure of natural chemicals like camphor, rosin and dipentene, attempting to construct a bridging pathway between naturally occurring material and high performance polyimides for sophisticated applications.

  1. Functional organosilicon materials

China has become the biggest producer and consumer market of organosilicon materials, yet mostly distributed upon monomer, common commodities of silicone, silicon resin and silicon rubber, in lack of functional organosilicon specialties. After many years of trial and validation, we have developed reactive olefin-containing organosilicon compounds, siloxane-containing diamine, highly heat-resistant organosilicon compounds and perfluoroalkyl organosilicon materials, which would play significant roles in green metal corrosion inhibition, powder surface modification, interfacial performance enhancement for sophisticated microelectronics and composites, and properties upgradation of traditional organosilicon products as well.

  1. Biomedical polymer materials

Aiming at solving the common clinical problems facing biomedical polymers, we start from monomer design and synthesize functional polymer materials to improve their bio- and blood compatibility, anticipating to impart medical devices with greater safety and clinical reliability.

Research projectsundertakers of NSFC programs including 2 general programs, 1 regional program and 1 youth program, and undertaker of many assigned technical programs from companies including Jiangxi Copper Corporation, Jiangxi Sanxin Medtec Co., Ltd, Jiangxi Shengyi Technology Co., Ltd.

Awards and Honors

Representative papers and patents

Cooperative synergistic effects of multiple functional groups in amide-containing polyimides with pyridine ring and pendent tert-butyl, Journal of Polymer Science, 2023, 61 (15): 1584-1595 Cover paper

Nucleophilic fluoroalkylation as an efficient avenue to achieve fluorinated polyimide monomers containing Csp3-Rf from carbonyl compounds, Journal of Polymer Science, 2020, 58(6): 2197-2210

Low Dielectric Poly(imide siloxane) Films Enabled by a Well-Defined Disiloxane-Linked Alkyl Diamine, ACS Omega, 2019, 4: 22143-22151

Conversion of renewable vanillin into high performance polyimides via an asymmetric aromatic diamine derivation, Polymer Degradation and Stability, 2019, 167: 67-76

Comparative Studies on Structure-Property Relationships of the Polyimide Films Derived from the Dianhydride Containing Alicyclic cis-Ethylenic Double Bond, Macromolecular Research, 2019, 27(7): 703-712

Polyimide from an asymmetric hydroxyl-containing aliphatic-aromatic diamine prepared via Henry reaction, Journal of Polymer Science Part APolymer Chemistry, 2017, 55(20): 3413-3423

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