Faculty
Name : Junsheng Wu
Department : Institute of corrosion control systems engineering
Title :Professor
Address :Institute for advanced materials and technology, university of science and technology Beijing, 30 xueyuan road, Beijing
Zip code :100083
Office Location : Corrosion building 522, university of science and technology Beijing
Office Telephone : 010-62333931-522
Mailbox : wujs@ustb.edu.cn
Personal profile:
Junsheng Wu, Ph.D., researcher, doctoral supervisor, deputy director of the Institute of Corrosion Control Systems Engineering. He graduated from University of Science and Technology Beijing with a doctorate in engineering in April 2006 and a visiting scholar at Nanyang Technological University in Singapore from 2011 to 2012. Mainly engaged in material corrosion protection, advanced coating and micro-nano scaled electrochemistry research. He has taught undergraduate students' courses such as Environmental Materials Science, Anti-corrosion Engineering Design, and Master's courses such as Materials Corrosion Science and Surface Engineering. He has undertaken 3 national natural science funds, 5 provincial and ministerial level projects and more than 20 industrial projects, and participated in more than 10 projects such as 863 and national key R&D projects. He has published more than 100 papers in academic journals such as J. Mater. Chem., J. Power Sources, Small, Electrochem. Commun., J. Phys. Chem. C., and has edited 5 monographs and 1 textbook. He applied for 21 Chinese invention patents, authorized 17 patents, and participated in the revision of more than 30 national and industrial standards. He won one second prize of National Science and Technology Progress Award, six first prizes for provincial and ministerial level scientific and technological progress, and two second prizes. He has served as a reviewer for more than 10 publications such as Chem. Comm., Chem. Soc. Rev., J. Mater. Chem., Int. J. Hydrogen Energy, Physica B, Corrosion Science, and invited more than ten times reports from domestic and international academic conferences. At present, he is also the executive member of the National Science and Technology Platform for Youth Working Group, the leader of the Technology and Standards Group; the member of a council of China Society for Corrosion and Protection; the member of a council of China Electrotechnical Society; the member of the Standardization Technical Committee for Building Materials and Components Environmental Conditions and Environmental Testing; Member and Deputy Secretary-General of Corrosion Inhibitor Professional Committee of China Society for Corrosion and Protection; NACE STAG P74 Member of the Marine Oil and Gas Corrosion Protection Technical Committee.
Research direction:
1. Marine corrosion protection
2. Corrosion resistant light alloy and surface treatment
3. New anti-corrosion coating
4. New energy materials and micro/nano scale electrochemistry
Scientific research achievement :
Selected paper:
Part of the representative paper:
[1] Wu Junsheng, Li Xiaogang, Yadian Boluo, Liu Hai, Chun Shurong, Zhang Bowei, Zhou Kun, Gan Chee Lip, HuangYizhong. Nano-scale oxidation of copper in aqueous solution. Electrochemistry Communications, 2013,26(1):21-24.
[2] Wu Junsheng, Zhu Bin, Mi Youquan, Shih Shao-Ju, Wei Jun, Huang Yizhong. A novel core-shell nanocomposite electrolyte for low temperature fuel cells. Journal of Power Sources, 2012,201:164-168.
[3] Junsheng Wu, Xiaogang Li, Wei Du, Chaofang Dong and Lei Li. Preparation and characterization of bimodal porous alumina–silica and its application to removal of basic nitrogen compounds from light oil. Journal of Materials Chemistry, 2007, 17(21): 2233-2240.
[4] Zhang Bowei, Hao Shiji, Wu Junsheng , Li Xiaogang , Li Chaojiang, Di Xiaowei, Huang Yizhong. Direct evidence of passive film growth on 316 stainless steel in alkaline solution. Materials Characterization, 2017,131:168-174
[5] Zhang Bowei, Chen Bensong, Wu Junsheng, Hao Shiji, Yang Guang, Cao Xun, Jing Lin, Zhu Minmin, Tsang Siu Hon, Teo Edwin Hang Tong, Huang Yizhong. The Electrochemical Response of Single Crystalline Copper Nanowires to Atmospheric Air and Aqueous Solution. Small, 2017,13(10): 1603411.
[6] Bowei Zhang, Junsheng Wu, Xiaogang Li, Hai Liu, BoluoYadian, R. V. Ramanujan, Kun Zhou ,Renbing Wu, Shiji Hao, Yizhong Huang. Passivation of Nickel Nanoneedles in Aqueous Solutions. The Journal of Physical Chemistry C, 2014, 118, 9073-9077.
[7]Zhang Bowei, Yang Guang, Li Chaojiang, Huang Kang, Wu Junsheng, Hao Shiji, Huang Yizhong. Electrochemical behaviors of hierarchical copper nanodendrites in alkaline media. Nano Research, 2018, February 9:p1-7.
[8] Hai Liu, Junsheng Wu, Ying Wang, Chee Lap Chow, Qing Liu, Chee Lip Gan, Xiaohong Tang, Rajdeep Singh Rawat, Ooi Kiang Tan, Jan Ma, Yizhong Huang. Self-Organization of a Hybrid Nanostructure consisting of a Nanoneedle and Nanodot. Small.2012,24;8(18):2807-2811.
[9] Wu Junsheng, Duan Yuping, Xi Qun. Improved impedance matching and microwave absorption properties of FSA/WV coatings with discrete structure. Journal of Materials Science: Materials in Electronics, 2017,28(3):3075-3082.
[10] Te-Wei Chiua, Wei-Ren Wanga, Jun-Sheng Wu. Synthesis of Pr2CuO4powders by using a glycine –nitrate combustion method for cathode application inintermediate-temperature solid oxide fuel cells. Ceramics International, 2015,41(S1): S675–S679.
[11] Pan Xiaoming, Wu Junsheng, Ge Yuanzheng, Xiao Kui, Luo, Hong, Gao Shujun, Li Xiaogang. Preparation and characterization of anticorrosion Ormosil sol-gel coatings for aluminum alloy. Journal of Sol-Gel Science and Technology. 2014,72(1):8-21.
[12] Ge Yuanzheng, Wu Junsheng, Li Haiyang, Zhang Kai, Li Xiaogang. Synthesis of titanate nanotubes under hydrothermal conditions and their acid stability. Journal of Nanoscience and Nanotechnology, 2016,16(8):8748-8759.
[13] Dongdong Peng, Junsheng Wu, Xiaoli Yan, Xiaoqiong Du, Yueying Yan, Xiaogang Li. The formation and corrosion behavior of a zirconium-based conversion coating on the aluminum alloy AA6061. Journal of Coatings Technology Research, 2016,13(5):837-850.
[14] Peng Dongdong, Wu Junsheng, Chang Lijuan, Pang, Kun, Li Xiaogang. Preparation and corrosion behaviour of cerium based sol-gel composite coatings on AA2024-T4 aluminum alloy. Electrochemistry, 2016,84(3)143-150.
[15] Dongdong Peng, Junsheng Wu, Pingping Chu and Xiaogang Li. Preparation and corrosion behavior of cerium (III)-modified and electro-assisted deposited bis-1,2-[triethoxysilyl] ethane film on the aluminum alloy AA2024-T3. Anti-Corrosion Methods and Materials, 2017,64 (1): 83–91
Participated in the compilation of works:
[1] "Introduction to Material Corrosion and Protection" (2nd Edition), Beijing: Mechanical Industry Press, 2017.8.
[2] “Corrosion Behavior and Mechanism of Marine Engineering Materials”, Beijing: Chemical Industry Press, 2017.1.
[3] “Marine Atmospheric Environmental Corrosion Life”, Beijing: Science Press, 2016.9.
[4] “External Atmospheric Environmental Corrosion Behavior and Mechanism of Typical Electronic Information Materials”, Beijing: Science Press. 2017.1.
[5] "Mechanical Corrosion Behavior and Mechanism of Metallic Materials", Beijing: Science Press. 2017.6.
[6] Material Environmental Adaptability Engineering, Beijing: Chemical Industry Press, 2014.7.
Partially represented patents:
Chinese invention patent:
[1] A marine corrosion simulation acceleration test device. CN101482482;
[2] A method for preparing high specific surface area titanium dioxide. CN101391811;
[3] A vanadium-doped titanium-based flue gas denitration catalytic material and preparation method thereof. CN101480611;
[4] A thin liquid film in-situ test device for use in a trace corrosive gas atmosphere. CN204613076U;
[5] A non-destructive monitoring test method for simulating accelerated corrosion of materials in a marine environment. CN102175595A;
[6] A device for comprehensive indoor simulation/fast evaluation of atmospheric environmental corrosion. CN103115864B;
[7] Method for detecting chloride ion content in sea sand. CN104634856A;
[8] A device for testing the thickness of a thin liquid film. CN201310215703;
[9] A method for preparing a metal corrosion-resistant hydrophobic film layer. CN103436866A;
[10] A simulated PM2.5 polluted environment corrosion test chamber. CN103712906A.