PAN Taijun

Brief Education  

Institute of Metal Research, Chinese Academic of Sciences, Doctor of Materials Science and Engineering, Aug. 2005--Aug. 2007

Institute of Metal Research, Chinese Academic of Sciences, Master of Materials Science and Engineering, Sep. 2002--Aug. 2005

Work Background

Zhejiang University of Science and Technology, Energy and Mechanical  engineering, (Master and Doctor Tutor), 2023—Present

Changzhou University, Energy and mechanics engineering (Master and Doctor Tutor), 2007—2023

Lawrence Berkeley National Laboratory, Electrochemistry and lithium-ion battery (Researcher ), 2013—2018

Email: tjpan@zust.edu.cn

Main Research Interests

l Hot corrosion, high temperature corrosion induced by O/Cl/C/S compounds.  Corrosion science and protection technology, Surface science and engineering technology, Electrochemical corrosion and cathode protection.

l Design and manufacture advanced functional materials for protection or chemical battery (fuel cell or lithium-ion battery).

l Chemical power and energy storage materials and technologies (lithium-ion batteries and fuel cells); Metal-supported solid oxide fuel cells

Main Research Projects

l 2022.7-2025.2 Research and development of key technologies of new high-strength rare earth modified steel

l 2019.7-2021.2 Study and Application of nanofilms on the surface of bipolar plates of fuel cell and corrosion resistance and conductivity, International Cooperation Project

l 2016-2018 Mechanism of interaction between Tritium and nuclear graphite in thorium-based molten salt reactor, Postdoctoral Science Foundation of China

Main Published Papers

（1） Pengcheng Wang, T.J. Pan*, Weihua Liu, Lili Guo, Zhongfeng Tang，High temperature corrosion of 321 stainless steel in purified NaCl-MgCl2 eutectic salt, Journal of Energy Storage 84 (2024) 110845

（2） Ni B, Zhu J, Yang G, T.J. Pan* et al. Effect of different metal element substitution on microstructural and comprehensive hydrogen storage performance of Ti0·9Zr0·1Mn0·95Cr0·7V0.2M0.15 (M = Fe, Co, Ni, Cu, Mo) alloy[J]. Progress in Natural Science: Materials International, 2024, 34(2):304-313.

（3） Pengfei Lu, Lili Guo, Qi Liu, Linlin Liu, T.J. Pan*, Zhongfeng Tang，Excellent high temperature corrosion resistance of 304 stainless steel immersed in purified NaCl-MgCl2 eutectic salts, Materials Chemistry and Physics, 296 (2023) 127216.

（4） Pengfei Lu, Lili Guo, Qi Liu, Linlin Liu, T.J. Pan*, Zhongfeng Tang, Effect of FeCl3 in NaCl-MgCl2 molten salts on the corrosion behavior of 316 stainless steel at 600°C, Corrosion Science, 212 (2023) 110961

（5） T.J.Pan*, Y.Leng, S. Liu, J. Jiang, J. Shen, J.H. Xiang，Wear and corrosion resistance performance of iron-based metallic amorphous coating produced by twin wire arc spraying, Journal of Materials Engineering and Performance, 32，7556-7566 (2023).

（6） T.J.Pan*, Y. J. Dai, J.Jiang, J.H. Xiang, Q.Q.Yang, Y.S.Li, Anti-corrosion performance of the conductive bilayer CrC/CrN coated 304SS bipolar plate in acidic environment, Corrosion science, 2022, 206, 110495

（7） R.Y. He, B.Y. Wang, J.H. Xiang, T.J. Pan*, Effect of copper additive on microstructure and anti-corrosion performance of black MAO films grown on AZ91 alloy and coloration mechanism, Journal of Alloys and Compounds, 889 (2021), 161501.

（8） Lili Guo, Qi Liu, Huiqin Yin, T.J. Pan*, Zhongfeng Tang, Excellent corrosion resistance of 316 stainless steel in purified NaCl-MgCl2 eutectic salt at high temperature, Corrosion Science, 166. (2020) 108473

（9） R.Y. He, J. Jiang, R. F. Wang, Y. Yue, Y. Chen, T.J. Pan*, Anti-corrosion and conductivity of titanium diboride coating on metallic bipolar plates, Corrosion Science, 170. (2020) 108646

（10） L.L. Guo, Y. Yue, T.J. Pan*, Z.F. Tang, W. Liu, Corrosion behavior of Ni-Al alloys beneath chlorides melt salt at 700oC, Solar Energy, 184 (2019) 657-663.

（11） T.J. Pan*, J. Alvarado, Y. Yue, J. Zhu, F. Lin, D. Nordlund, M.M. Doeff, Structural degradation of layered cathode materials in lithium-ion batteries induced by ball milling, Journal of Electrochemistry Society, 166 (2019) A1964-A1971.

（12） S Liu, R.F. Wang, Y Yuan, T.J. Pan*, Anti-corrosion and conductivity of the electrodeposited graphene/polypyrrole composite coating for metallic bipolar plates, Progress in Organic Coatings, 136 (2019) 105237.