Wang Chunpeng

Prof.  Wang Chunpeng

Organization: Research Institute of Chemical Processing and Utilization of Forest Products, Chinese Academy of Forestry

Research category: Chemical Processing Engineering of Forest Products

Research field: Expertise in bio-based polymer materials and applications, including environmental-friendly wood adhesives; bio-based solid-state energy storage systems; and polymer emulsion

E-mail: wangchunpeng@icifp.cn, wangcpg@163.com

Main work

Prof. Wang Chunpeng is a Senior Scientist at the Institute of Chemical Industry of Forest Products, Chinese Academy of Forestry. He serves as the Director of Biomass Materials Chemistry Research Office. Dr. Wang's research focuses mainly on bio-based polymer materials and applications, including environmental-friendly wood adhesives, bio-based solid-state energy storage systems, and polymer emulsion. He has hosted over 15 national and provincial programs, including National Key Research and Development Program of China, Forestry Industry Special Program. He devotes to the technical research and industrial promotion for the environmental-friendly wood adhesives, polymer emulsion, light-weight insulation foams, and high barrier resins.

He has published more than 70 papers, including Nano-Micro lett., Adv. Sci., Prog. Polym. Sci., with the highest Impact Factor reaching 26.6. He has been granted more than 30 national patents and published 2 books. He has promoted technological achievements in more than 20 companies, including Sinopec Chongqing Svw Chemical Co., Ltd, Guangxi Fenglin Wood Industry Group Co., Ltd, Zhejiang Shenghua Yunfeng New Materials Co., Ltd, and Sinoma Science and Technology Co., Ltd, building the bridge between fundamental research and practical applications.

Key research projects

  • National Key Research and Development Program of China (2022YFD2200701), 2022-2027

  • Forestry Science and Technology Innovation and Promotion Program of Jiangsu Province (LYKJ[2022]19), 2022-2025

  • Fundamental Research Funds of Jiangsu Key Laboratory of Biomass Energy and Material (JSBEM-S-202102), 2021-2024

  • Special Funds for the Basic Research and Development Program in the Central Non-profit Research Institutes of China (CAFYBB2020GA001), 2020-2023

  • National Key Research and Development Program of China (2016YFD0600705), 2016-2020

Awards & achievements

  • First Prize of Liang Xi Forestry Science and Technology Progress Award, 2020

  • First Prize of Science and Technology Progress Award of Hunan Province, 2016

  • Second Prize of Science and Technology Progress Award of Jilin Province, 2016

  • China Forestry Youth Science and Technology Award, 2009

  • Second Prize of Mao Yisheng Wood Science and Technology, 2005

Published articles & books

  • Nan Jingya#, Sun Yue#, Yang Fusheng, Zhang Yijing, Li Yuxi, Wang Zihao, Wang Chuchu, Wang Dingkun, Chu Fuxiang, Wang Chunpeng*, Zhu Tianyu*, Jiang Jianchun*. Coupling of adhesion and anti‑freezing properties in hydrogel electrolytes for low‑temperature aqueous‑based hybrid capacitors [J]. Nano-Micro Letters 2024, 16: 22. (SCI, IF=26.6)

  • Zhang Yijing#, Sun Yue#, Nan Jingya*, Yang Fusheng, Wang Zihao, Li Yuxi, Wang Chuchu, Chu Fuxiang, Liu Yupeng*, Wang Chunpeng*. In situ polymerization of hydrogel electrolyte on electrodes enabling the flexible all-hydrogel supercapacitors with low-temperature adaptability [J]. Small 2024, 2309900. (SCI, IF=13.3)

  • Nan Jingya, Zhang Gaitong, Zhu Tianyu, Wang Zhongkai, Wang Lijun, Wang Hongsheng, Chu Fuxiang, Wang Chunpeng*, Tang Chuanbing*. A highly elastic and fatigue-resistant natural protein-reinforced hydrogel electrolyte for reversible-compressible quasi-solid-state supercapacitors [J]. Advanced Science 2020, 7(14): 2000587. (SCI, IF=16.806)

  • Zhou Xi, Gao Xuexia, Liu Meihong, Wang Chunpeng*, Chu Fuxiang*. Synthesis of 3D phosphorus doped graphene foam in carbon cloth to support V2O5/CoMoS4 hybrid for flexible all-solid-state asymmetry supercapacitors. Journal of Power Sources 2020, 453, 227902. (SCI, IF=9.127)

  • Niu Li, Zhang Daihui *, Liu Yupeng, Zhou Xi, Wang Jifu, Wang Chunpeng*, Chu Fuxiang. Combination of acid treatment and dual network fabrication to stretchable cellulose based hydrogels with tunable properties. International Journal of Biological Macromolecules 2020, 147, 1-9. (SCI, IF=6.953)

  • Chu Fuxiang, Wang Chunpeng, Kong Zhenwu. New bio-based polymer materials. Beijing: Science Press. 2021.

  • Chu Fuxiang, Wang Chunpeng. New wood adhesives. Beijing: Chemical Industry Press. 2017.

Other results

  • Wang Chunpeng, Nan Jingya, Zhang Gaitong, Wang Lijun, Chu Fuxiang. Highly stretchable soybean protein hybrid hydrogels and their methods of preparation. China national invention patent, ZL 201910540037.6.

  • Wang Chunpeng, Nan Jingya, Zhang Gaitong, Wang Lijun, Chu Fuxiang. Highly elastic and fatigue-resistant soybean protein hybrid hydrogels and their methods of preparation. China national invention patent, ZL 201910539994.7