吴宇宁 - 华东师范大学 - 物理与电子科学学院

个人简介

吴宇宁，物理与电子科学学院电子科学系青年研究员。2012年8月获美国佛罗里达大学物理学博士学位，随后先后在范德堡大学、佛罗里达大学、美国能源技术国家实验室从事博士后研究。主要从事半导体材料的第一性原理模拟和计算方法的开发，包括基于缺陷性质研究半导体的电学和光学性质、缺陷参与的激发态载流子动力学过程等。教育经历 2006 - 2012 物理学博士，美国佛罗里达大学 2002 - 2006 物理学学士, 中国科学技术大学

研究领域

基于半导体缺陷性质模拟识别实验缺陷构型光伏、色心等体系中激发态载流子动力学过程电子束等辐照条件下半导体的辐照损伤机理

近期论文

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Y.-N. Wu, WA Saidi, J Wenschell, T Tadano, P Ohodnicki, B Chorpening, and Y Duan, “Anharmonicity Explains Temperature Renormalization Effects of the Band Gap in SrTiO3”, The Journal of Physical Chemistry Letters, 11, 2518 (2020) CM Dai, T Zhang, Y.-N. Wu*, S Chen*, “Halide Double‐Perovskite Light‐Emitting Centers Embedded in Lattice‐Matched and Coherent Crystalline Matrix”, Advanced Functional Materials, 2000653 (2020) CM Dai, P Xu, M Huang, Z Cai, D Han, Y.-N. Wu*, S Chen*, “NaSbSe2 as a promising light-absorber semiconductor in solar cells: First-principles insights”, APL Materials, 7, 081122 (2019) Y.-N. Wu, WA Saidi, P Ohodnicki, B Chorpening, and Y Duan, “First-Principles Investigations of the Temperature Dependence of Electronic Structure and Optical Properties of Rutile TiO2”, The Journal of Physical Chemistry C 122 (39), 22642 (2018) N Huo, Y Yang, Y.-N. Wu, XG Zhang, ST Pantelides, and G Konstantatos, “High carrier mobility in monolayer CVD-grown MoS 2 through phonon suppression”, Nanoscale 10 (31), 15071 (2018) Y.-N. Wu, X.-G. Zhang, and S. T. Pantelides, “Fundamental Resolution of Difficulties in the Theory of Charged Point Defects in Semiconductors”, Physical Review Letters 119 (10), 105501 (2017) Y.-N. Wu, X.-G. Zhang, and S. T. Pantelides, “First-principles calculations reveal controlling principles for carrier mobilities in semiconductors”, Semiconductor Science and Technology, 31 (11), 115016 (2016) J.P. Trinastic, R. Hamdan, Y.-N. Wu, L. Zhang and H.-P. Cheng, “Unified interatomic potential and energy barrier distributions for amorphous oxides”, The Journal of Chemical Physics, 139 (15), 154506 (2013) Y.-N. Wu, X.-G. Zhang, and H.-P. Cheng, “Giant Molecular magnetocapacitance”, Physical Review Letters110, 217205 (2013). Y.-P. Wang, X.-F. Han, Y.-N. Wu, and H.-P. Cheng, “Adsorption of tris (8-hydroxyquinoline) aluminum molecules on cobalt surfaces”, Physical Review B, 85, 144430 (2012). Y.-N. Wu, N. Keba?li, H.-P. Cheng, A. Masson, and C. Bréchignac, “Enhancement of Ag cluster mobility on Ag surfaces by chloridation”, Journal of Chemical Physics,137, 184705 (2012). Y.-N. Wu,M. Schmidt,J. Leygnier,H.-P. Cheng,A. Masson, and C. Bréchignac, “Adsorption of small molecules on silver cluster”, Journal of Chemical Physics,136, 024314 (2012). Y.-N. Wu, L. Li and H.-P. Cheng, “First-principles studies of Ta2O5 polymorphs”, Physical Review B, 83, 144105 (2011). C. Cao, Y.-W. Chen, Y.-N. Wu, E. Deumens and H.-P. Cheng, “OPAL: A multiscale multicenter simulation package based on MPI-2 protocol”, International Journal of Quantum Chemistry, 111, 4020 (2011). C. Cao, Y.-N. Wu, R. Hamdan, Y. Wang and H.-P. Cheng, “Accurate projected augmented wave datasets for BaFe2As2”, New Journal of Physics,12, 123029 (2010). L. Tang, X. Zhang, QM Guo, Y.-N. Wu, L.-L. Wang and H.-P. Cheng, “Two bonding configurations for individually adsorbed C-60 molecules on Au(111)”, Physical Review B, 82, 125414 (2010). L. Li, Y.-N. Wu and H.-P. Cheng, “First-principles calculations of Fe-doped monolayer C-60 on h-BN/Ni(111) surface”, Journal of Chemical Physics, 132, 074702 (2010).