Name:Zijing Lin (林子敬)
Address:Department of Physics,

University of Science and Technology of China,

230026 Hefei, P. R. China
Zijing Lin received his BS in physics from the Hangzhou University in 1983 and a Ph. D. in condensed matter physics from the University of Science and Technology of China in 1989. He was a research associate at the Clausthal Technology University from 1989 to 1990 and a visiting scientist at the Julich Research Center from 1990-1992. From 1993 to 1994, he worked as a postdoctoral fellow at the University of New Brunswick. He was a research scientist from 1994 to 1997 and a contract senior scientist from 1997 to 2000 at the Pacific Northwest National Laboratory. He joined the University of Science and Technology of China as a full professor in 2000 and started working as a principle investigator for the Hefei National Laboratory for Physical Sciences at Microscale (HFNL) when it was created in 2003.
1.Conformational studies of gaseous amino acids and peptides
2.Multi-scale and multi-physics modeling of solid oxide fuel cells
3.Electronic structures of novel materials
1.Methods for peptide & protein structure prediction, and their applications in biomedicine design
2.Multiscale and multiphysics modeling of solid oxide fuel cell and electrolysis cell
3.Electronic structure study for the design of novel material
1.C. Ke, Z. Lin, Elementary reaction path study and a deduced macrokinetic model for the unified understanding of Ni-catalyzed steam methane reforming. Reaction Chemistry & Engineering 2020. doi: 10.1039/c9re00460b (back cover article)
2.R. Wang, Y. Sun, V. Gvozdetskyi, X. Zhao, F. Zhang, L. Xu, J. Zaikina, Z. Lin, C. Wang, KM Ho, Theoretical search for possible Li-Ni-B crystal structures using an adaptive genetic algorithm, J. Appl. Phys. 127(2020)094902 (cover article)
3.C. Ke  and Z. Lin, Density Functional Theory Based Micro- and Macro-Kinetic Studies of Ni-Catalyzed Methanol Steam Reforming, Catalysts, 10(2020)349
4.R. Wang, Y. Sun, V. Antropov, Z. Lin, C. Wang, KM Ho, A new highly responsive material: spin fluctuations and superconductivity in FeNiB2 system, Appl. Phys. Lett. 115(2019)182601
5.R. Li, Z. Lin, K.S. Chan,  Intervalley conversion in bilayer-monolayer graphene junctions, Physica E: Low-dimensional Systems and Nanostructures, 113(2019)109
6.M. Chen, H. Gao; L. Zhang, Y. Xuan, J. Ren, M. Ni, Z. Lin,  Unlocking the nature of the co-doping effect on the ionic conductivity of CeO2-based electrolyte, Ceramics International, 45(2019)3977
7.J.Zhu, Z. Lin, Degradations of the electrochemical performance of solid oxide fuel cell induced by material microstructure evolutions, Applied Energy, 231(2018)22
8.X. Fang, Z. Lin, Numerical study on the mechanical stress and mechanical failure of planar solid oxide fuel cell, Applied Energy, 229(2018)63
9.X. Chen, B. Yang, Z. Lin, A random forest learning assisted "divide and conquer" approach for peptide conformation search, Scientific Reports, 8(2018)8796
10.A. Li, C. Song and Z. Lin, A multiphysics fully coupled modelling tool for the design and operation analysis of planar solid oxide fuel cell stacks, Applied Energy, 190(2017)1234
11.X. Ru, C. Song, Z. Lin, Structural Information Based Method for the Efficient and Reliable Prediction of Oligopeptide Conformations, J. Phys. Chem. B, 121(2017)2525
12.X. Lv, X. Zhao, S. Wu, P. Wu, Y. Sun, MC Nguyen, Y. Shi, Z. Lin, C. Wang, and KM Ho, A scheme for the generation of Fe-P networks to search for low-energy LiFePO4 crystal structures, J. Mater. Chem. A, 5(2017)14611

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