Name:Xian-Hui Chen (X.-H. Chen 陈仙辉)
Born:March 8, 1963, Hunan, P. R. China
Address:Department of Physics, University of Science and Technology of China, 230026 Hefei, P. R. China
1986.09-1989.06M.S, Hangzhou University (presently Zhejiang University)
1989.09-1992.05Ph.D, Department of Physics, University of Science and Technology of China
1993.10-1998.04Associate Professor: Department of Physics, University of Science and Technology of China
1998.05-2002.12Professor of Physics: Department of Physics, University of Science and Technology of China
1994.05-1995.10Humboldt Fellow, Karlsruhe Research Center, Karlsruhe and Max-Planck Institute for Solid State Physics, Stuttgart, Germany
1998.06-1999.02Visiting Professor: Advanced Institute of Science and Technonlogy, Ishikawa, Japan
2001.01-2003.02Visiting Research Professor: Texas Center for Superconductivity, University of Houston, Houston, U.S.A
2003.01-2007.01Changjiang Professor, University of Science and Technology of China
2005.01-2005.11Visiting Professor: University of Hong Kong
2006.08-2006.09Visiting Professor: National University of Singapore, Singapore
1.1998:“National Science Fund for Distinguished Young Scholars of China”.
2.2009:“Changjiang Scholars Achievement Award from Ministry of Education”.
3.2009:“Outstanding Science &Technology Team Achievement Award” from Hong Kong Qiu Shi Science and Technologies Foundation.
4.2009:“Ye Qisun Physics Prize” from Chinese Physical Society (2008-2009).
5.2010:“The First Prize of Science & Technology in Scientific Research for Colleges and Universities”.
6.2010:“The First Prize of Science and Technology in Anhui province”.
7.2013: “the first prize of The National Natural Science Award”.
8.2015: “Bernd T. Matthias Prize for Superconducting Materials”.
9.2016, “Anhui Outstanding Contribution Award”.
10.2016, “Anhui Grand Science & Technology Achievement Award”.
11.2017, “National Innovation and Progressiveness Medal”.
12.2017, “the Ho Leung Ho Lee Foundation Physics Prize”.
1.Search for new functional materials and study on the correlation between the structure and physical properties.
2.Physics in High-Tc superconductivity and strongly correlated electron system.
3.Transport and magnetic properties in low dimensional systems and related quantum critical phenomenon.
1.Basic theory and frontier scientific issues of high temperature superconductivity application (Strategic Priority Research Program (B) of the Chinese Academy of Sciences)
2.Exploration on Novel two-dimensional semiconductor materials and their quantum properties (Key Research Program of the Chinese Academy of Sciences)
3.Exploration on novel two-dimensional layered unconventional superconductors and their mechanism. (National Key R & D Program of China)
4.Studies on the field effect, quantum behavior and the pressure effect of two-dimensional black phosphorus crystal (National Natural Science Foundation of China)
5.Research on high temperature superconducting materials and their mechanism (National Natural Science Foundation of China)
1.Direct observation of the layer-dependent electronic structure in phosphorene,
L.K. Li, J. Kim, C.H. Jin, G.J. Ye, D.Y. Qiu, F.H. da Jornada, Z.W. Shi, L. Chen, Z.C. Zhang, F.Y. Yang, K. Watanabe, T. Taniguchi, W. Ren, S.G. Louie*, X.H. Chen*, Y.B. Zhang*, F. Wang*,
Nature Nanotechnology 12 (2017) 21-25.
2.Evolution of High-Temperature Superconductivity from a Low-Tc Phase Tuned by Carrier Concentration in FeSe Thin Flakes
B. Lei, J.H. Cui, Z.J. Xiang, C.Shang, N.Z. Wang, G.J. Ye, X.G. Luo, T. Wu, Z. Sun, and X.H. Chen*
Physical Review Letters 116, 077002 (2016).
3.Quantum Hall Effect in Black Phosphorus Two-dimensional Electron System
L. K. Li, F. Y. Yang, G. J. Ye, Z. C. Zhang, Z. W. Zhu, W. K. Lou, L. Li, K. Watanabe, T. Taniguchi, K. Chang, Y. Y. Wang, X. H. Chen* and Y. B. Zhang*
Nature Nanotechnology 11, 593-597 (2016).
4.Pressure-Induced Electronic Transition in Black Phosphorus
Z.J. Xiang, G.J. Ye, C. Shang, B. Lei, N.Z. Wang, K.S. Yang, D.Y. Liu, F.B. Meng, X.G. Luo, L.J. Zou, Z. Sun, Y. B. Zhang*, and X.H. Chen*
Phys. Rev. Lett. 115, 186403 (2015).
5.Angular-Dependent Phase Factor of Shubnikov–de Haas Oscillations in the Dirac Semimetal Cd3As2
Z.J. Xiang, D. Zhao, Z. Jin, C. Shang, L.K. Ma, G.J. Ye, B. Lei, T. Wu, Z.C. Xia, and X.H. Chen*
Phys. Rev. Lett. 115, 226401 (2015).
6.Coexistence of superconductivity and antiferromagnetism in (Li0.8Fe0.2)OHFeSe 
X. F Lu, N. Z. Wang, H. Wu, Y. P. Wu, D. Zhao, X. Z. Zeng, X. G. Luo, T. Wu, W. Bao, G. H. Zhang, F. Q. Huang, Q. Z. Huang, X. H. Chen*
Nature Materials 14, 325-329 (2015).
7.Black phosphorus field-effect transistors
L. K. Li, Y. J. Yu, G. J. Ye, Q. Q. Ge, X. D. Ou, H. Wu, D. L. Feng, X. H. Chen*, and Y. B. Zhang*
Nature Nanotechnology 9, 372-377 (2014).
8.Quantum oscillations in a two-dimensional electron gas in black phosphorus thin films
L. K. Li, G. J. Ye, V. Tran, R. X. Fei, G. R. Chen, H. C. Wang, J. Wang, K. Watanabe, T. Taniguchi, L. Yang, X. H. Chen and Y. B. Zhang*
Nature Nanotechnology 10, 613-618 (2015).
9.Measurements of the Anisotropic In-Plane Resistivity of Underdoped FeAs-Based Pnictide Superconductors
J. J. Ying, X. F. Wang, T. Wu, Z. J. Xiang, R. H. Liu, Y. J. Yan, A. F. Wang, M. Zhang, G. J. Ye, P. Cheng, J. P. Hu, and X. H. Chen*
Phys. Rev. Lett., 107,067001 (2011).
10.Superconductivity at 5 K in alkali-metal-doped phenanthrene 
X. F. Wang, R. H. Liu, Z. Gui, Y. L. Xie, Y. J . Yan, J. J. Ying, X. G. Luo, and X. H. Chen*
Nat. Commun. 2, 507 (2011).
11.Novel dynamical effects and glassy response in strongly correlated electronic system
G. Y. Wang, X. H. Chen*, T. Wu, X. G. Luo, W. T. Zhang, G. Wu
Phys. Rev. Lett. 100, 146402 (2008).
12.Phase Diagram and Quantum phase transition in Newly Discovered Superconductors:SmO1-xFxFeAs
R. H. Liu, G. Wu, T. Wu, D. F. Fang, H. Chen, S. Y. Li, K. Liu, Y. L. Xie, X. F. Wang, R. L. Yang, C. He, D. L. Feng and X. H. Chen*
Phys. Rev. Lett. 101, 087001 (2008).
13.Superconductivity at 43 K in Samarium-arsenide Oxides SmFeAsO1-xFx
X. H. Chen*, T. Wu, G. Wu, R. H. Liu, H. Chen and D. F. Fang 
Nature 453,761-762 (2008).
14.A large iron isotope effect in SmFeAsO1-xFx and Ba1-xKxFe2As2
R. H. Liu, T. Wu, G. Wu, H. Chen, X. F. Wang, Y. L. Xie, J. J. Yin, Y. J. Yan, Q. J. Li, B. C. Shi, W. S. Chu, Z. Y. Wu and X. H. Chen*
Nature 459, 64-67 (2009).
15.The BCS like gap in superconductor SmFeAsO0.85F0.15
T. Y. Chen, Z. Tesanovic, R. H. Liu,X. H. Chen*, C. L. Chien 
Nature 453, 1224 (2008).

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