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[专家学者] 中国科学院上海硅酸盐研究所孙宜阳

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发表于 4 天前 | 显示全部楼层 |阅读模式
孙宜阳,上海有机所研究员。1996年毕业于吉林大学材料科学系。1999年毕业于厦门大学物理系,获得硕士学位。2004年获新加坡国立大学物理学博士学位。2004年至2010年先后于新加坡国立大学、美国可再生能源国家实验室(NREL)和Rensselaer Polytechnic Institute(RPI)做博士后。2010年至2017于RPI物理系任研究助理教授和研究科学家。2017年回国任上海硅酸盐研究所特聘研究员。主要研究方向是基于第一性原理计算的缺陷理论,已发表科研论文80余篇,其中20余篇发表在PRL,JACS,Adv. Mater.,Nano Lett.,ACS Nano,Nature Comm.,PNAS等高影响期刊上。


姓 名:孙宜阳       
性    别:男
专家类别:研究员       
学 历:博士研究生
电 话:021-69906536       
传 真:无
电子邮件:yysun@mail.sic.ac.cn       
个人主页:无
邮政编码:201899       
通讯地址:上海市嘉定区和硕路585号       


简历:
教育经历:
1992—1996,吉林大学,材料科学与工程,学士学位
1996—1999,厦门大学,凝聚态物理,硕士学位
2000—2004,新加坡国立大学,凝聚态物理,博士学位


工作经历:
2004—2006,新加坡国立大学物理系,博士后
2006—2008,美国可再生能源国家实验室,博士后
2008—2010,美国伦斯勒理工学院物理系,博士后
2010—2015,美国伦斯勒理工学院物理系,研究助理教授
2015—2017,美国伦斯勒理工学院物理系,研究科学家
2017—至今,中国科学院上海硅酸盐研究所,高性能陶瓷和超微结构国家重点实验室,研究员


科研工作简介:
(1)第一性原理缺陷理论—广泛应用于能源材料、低维材料、拓扑材料和超导材料等
(2)新型功能材料设计—基于材料基因组概念的新材料设计与开发
(3)材料物理与化学—理解材料中的微观物理与化学过程,基于这些理解来改善和设计材料性质


科研成果(代表性论文):
25. Z. Wang#, Y. Y. Sun#, I. Abdelwahab, L. Cao, W. Yu, H. Ju, J. Zhu, W. Fu, L. Chu, H. Xu, and K. P. Loh, “Surface-Limited Superconducting Phase Transition on 1T-TaS2”, ACS Nano 12, 12619-12628 (2018).
24. W. Li, Y. Y. Sun, L. Li, Z. Zhou, J. Tang, and O. V. Prezhdo, “Control of Charge Recombination in Perovskites by Oxidation State of Halide Vacancy”, J. Am. Chem. Soc. 140, 15753-15763 (2018).
23. Y. Wang, X. Sun, Z. Chen, Y. Y. Sun, S. B. Zhang, T.-M. Lu, E. Wertz, and J. Shi, “High-Temperature Ionic Epitaxy of Halide Perovskite Thin Film and the Hidden Carrier Dynamics”, Adv. Mater. 29, 1702643 (2017).
22. M. L. Agiorgousis, Y. Y. Sun*, and S. B. Zhang, “The Role of Ionic Liquid Electrolyte in an Aluminum–Graphite Electrochemical Cell”, ACS Energy Lett. 2, 689-693 (2017).
21. Y. Wang, L. Seewald, Y. Y. Sun, P. Keblinski, X. Sun, S. B. Zhang, T.-M. Lu, J. M. Johnson, J. Hwang, and J. Shi, “Nonlinear electron-lattice interactions in a wurtzite semiconductor enabled via strongly correlated oxide”, Adv. Mater. 26, 8975-8982 (2016).
20. J. Bang, Y. Y. Sun, X.-Q. Liu, F. Gao, and S. B. Zhang, “Carrier-multiplication-induced structural change during ultrafast carrier relaxation and nonthermal phase transition in semiconductors”, Phys. Rev. Lett. 117, 126402 (2016).
19. H. Wang, J. Bang, Y. Y. Sun, L. Liang, D. West, V. Meunier, and S. B. Zhang, “The role of collective motion in the ultrafast charge transfer in van der Waals heterostructures”, Nature Comm. 7, 11504 (2016).
18. S. Pereraa, H. Hui, C. Zhao, H. Xue, F. Sun, C. Deng, N. Gross, C. Milleville, X. Xu, D. F. Watson, B. Weinstein, Y. Y. Sun*, S. Zhang, and H. Zeng, “Chalcogenide perovskites – an emerging class of ionic semiconductors”, Nano Energy 22, 129 (2016).
17. S. Lei, H. Wang, L. Huang, Y. Y. Sun*, and S. B. Zhang, “Stacking fault enriching the electronic and transport properties of few-layer phosphorenes and black phosphorus”, Nano Lett. 16, 1317 (2016).
16. Y. Y. Sun*, J. Shi, J. Lian, W. Gao, M. L. Agiorgousis, P. Zhang, and S. B. Zhang, “Discovering lead-free perovskite solar materials with a split-anion approach”, Nanoscale 8, 6284 (2016).
15. M. C. Lucking, J. Bang, H. Terrones, Y. Y. Sun, and S. B. Zhang, “Multivalency-induced band gap opening at MoS2 edges”, Chem. Mater. 27, 3326 (2015).
14. Y. Y. Sun*, M. L. Agiorgousis, P. Zhang, and S. B. Zhang, “Chalcogenides perovskites for photovoltaics”, Nano Lett. 15, 581 (2015).
13. M. L. Agiorgousis, Y. Y. Sun*, H. Zeng, and S. B. Zhang, “Strong covalency-induced recombination centers in perovskite solar cell material CH3NH3PbI3”, J. Am. Chem. Soc. 136, 14570 (2014).
12. T. A. Abtew, W. Gao, X. Gao, Y. Y. Sun, S. B. Zhang, and P. Zhang, “Theory of oxygen-boron vacancy defect in cubic boron nitride: A diamond NV isoelectronic center”, Phys. Rev. Lett. 113, 136401 (2014).
11. Y. Chen, Y. Y. Sun, H. Wang, D. West, Y. Xie, J. Zhong, V. Meunier, M. L. Cohen, and S. B. Zhang, “Carbon Kagome lattice and orbital-frustration-induced metal-insulator transition for optoelectronics”, Phys. Rev. Lett. 113, 085501 (2014).
10. M. Lucking, Y. Y. Sun*, D. West, and S. B. Zhang, “Absolute redox potential of liquid water: A first-principles theory”, Chem. Sci. 5, 1216 (2014).
9. W. Xie, D. West, Y. Y. Sun, and S. B. Zhang, “Role of nano in catalysis: Palladium catalyzed hydrogen desorption from nanosized magnesium hydride”, Nano Energy 2, 742 (2013).
8. J. Bang, S. Meng, Y. Y. Sun, D. West, Z. G. Wang, F. Gao, and S. B. Zhang, “Regulating energy transfer of excited carriers: the case for excitation induced hydrogen dissociation on hydrogenated graphene”, Proc. Natl. Acad. Sci. USA 110, 908 (2013).
7. Y. Jiang, Y. Y. Sun, M. Chen, Y. Wang, Z. Li, C. Song, K. He, L. Wang, X. Chen, Q.-K. Xue, X. Ma, and S. B. Zhang, “Fermi level tuning of epitaxial Sb2Te3 thin films on graphene by regulating intrinsic defects and substrate transfer doping”, Phys. Rev. Lett. 108, 066809 (2012).
6. T. A. Abtew, Y. Y. Sun, B.-C. Shih, P. Dev, S. B. Zhang, and P. Zhang, “Dynamic Jahn-Teller effect in the NV- center in diamond”, Phys. Rev. Lett. 107, 146403 (2011).
5. G. Wang, X.-G. Zhu, Y. Y. Sun, Y.-Y. Li, T. Zhang, J. Wen, X. Chen, K. He, L.-L.Wang, X.-C. Ma, J.-F. Jia, S. B. Zhang, and Q.-K. Xue, “Topological insulator thin films of Bi2Te3 with controlled electronic structure”, Adv. Mater. 23, 2929 (2011).
4. K. Lee, Y.-H. Kim, Y. Y. Sun, D. West, Y. Zhao, Z. Chen, and S. B. Zhang, “Hole-mediated hydrogen spillover mechanism in metal-organic frameworks”, Phys. Rev. Lett. 104, 236101 (2010).
3. L. Wang, K. Lee, Y. Y. Sun, M. Lucking, Z. Chen, J. J. Zhao, and S. B. Zhang, “Graphene oxide as an ideal substrate for hydrogen storage”, ACS Nano 3, 2995 (2009).
2. Y. Y. Sun, Y.-H. Kim, and S. B. Zhang, “Effect of spin state on the dihydrogen binding strength to transition metal centers in metal-organic frameworks”, J. Am. Chem. Soc. 129, 12606 (2007).
1. Y. Y. Sun, H. Xu, Y. P. Feng, A. C. H. Huan, and A. T. S. Wee, “Rule for structures of open metal surfaces”, Phys. Rev. Lett. 93, 136102 (2004).

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