郭胜平
近期热点
资料介绍
个人简历
教育经历\r1999/09–2003/07,武汉理工大学,材料科学与工程学院,学士\r2003/09–2006/07,华侨大学,材料科学与工程学院,硕士\r2006/09–2009/06,中国科学院福建物质结构研究所,结构化学国家重点实验室,博士\r \r工作经历\r2009/06–2010/12,中科院福建物质结构研究所,结构化学国家重点实验室,助理研究员\r2011/01–2012/01,美国特拉华大学,化学与生物化学系,博士后\r2012/04–2013/04,韩国汉阳大学,WCU能源工程系,博士后\r2013/07–2014/06,德国慕尼黑工业大学,化学系,博士后\r2014/07至今,扬州大学化学化工学院研究领域
"""""新颖无机硫属化合物的合成和晶体结构\r红外二阶非线性光学晶体材料\r特殊电、磁无机功能化合物\r第一性原理计算无机固体材料的电子结构和光学性质"近期论文
S.-P. Guo,#* X. Y. Chen#, Z.-D. Sun, Y. Chi, B.-W. Liu, X.-M. Jiang, S.-F. Li, H.-G. Xue, S. Q. Deng,* V. Duppel, J. Kӧhler and G.-C. Guo*. Large second harmonic generation (SHG) effect and high laser-induced damage threshold (LIDT) observed coexisting in gallium selenide, Angew. Chem. Int. Ed. 2019, 58, 8087–8091.(注:第一完成单位)\r\rY. Chi#, J. Xu#, H.-G. Xue, Y. P. Zhang, X. L. Chen, M.-H. Whangbo, S.-P. Guo* and S. Q. Deng*, Triple-layer Kagomé lattices of mixed-valence rare-earth ions exhibiting quantum spin liquid behaviors: synthesis and characterization of Eu9MgS2B20O41, J. Am. Chem. Soc. 2019, 141, 9533–9536.(注:第一完成单位)\r\rS.-P. Guo*, Y. Chi and H.-G. Xue. SnI4∙(S8)2, a novel adduct-type infrared second-order nonlinear optical crystal, Angew. Chem. Int. Ed. (VIP, frontispiece) 2018, 57, 11540–11543.\r\rY. Chi,# Z.-D. Sun,# Q.-T. Xu, H. G. Xue and S.-P. Guo*. Hexagonal In2Se3: a defect wurtzite-type infrared nonlinear optical material with moderate birefringence contributed by unique InSe5 unit, ACS Appl. Mater. Interfaces 2020, 12, 17699–17705. DOI: 10.1021/acsami.9b23085\r\rY. Chi, H.-G. Xue and S.-P. Guo*. Designing sulfide borate as a novel type of second-order nonlinear-optical crystal, Inorg. Chem. 2020, 59, 1547–1555. DOI: 10.1021/acs.inorgchem.9b03426\r\rX.-H. Li, Y.-T. Chen, H. G. Xue and S.-P. Guo*. KInSi1.32Sn0.68Se6: an infrared nonlinear optical material containing three types of tetrahedral units, Inorg. Chem. 2020, 59, 5823–5827. DOI: 10.1021/acs.inorgchem.0c00639\r\rZ.-H. Shi, Y. Chi, M. Yang, W. L. Liu and S.-P. Guo*. A series of chalcogenide borates RE6Ta2MgQB8O26 (RE = Sm, Eu, Gd; Q = S, Se) featuring a B4O10 cluster, Inorg. Chem. 2020, 59, 3532–3536. DOI: 10.1021/acs.inorgchem.0c00086\r\rY.-N. Li, H. G. Xue and S.-P. Guo*. (Na0.60Ba0.70)Ga2Se4: an infrared nonlinear optical crystal designed using AgGaSe2 as the template, Inorg. Chem. 2020, 59, 3546–3550. DOI: 10.1021/acs.inorgchem.0c00196\r\rZ.-T. Lu, W.-J. Fan, Z.-Q. Wang, N. Gu, Z.-H. Yue, H.-G. Xue and S.-P. Guo*. Second-order nonlinear optical-active selenide borate YSeBO2: featuring [YSeBO2]n planar belt, Inorg. Chem. 2020, 59, 7905–7909. DOI: 10.1021/acs.inorgchem.0c00753\r\rM. Yan, Z.-D. Sun, W.-D. Yao, W. F. Zhou, W. L. Liu* and S.-P. Guo*. Highly distorted HgS4 tetrahedra induced moderate second-harmonic generation response of EuHgGeS4, Inorg. Chem. Front. 2020, 7, 2451–2458. DOI: 10.1039/D0QI00266F\r\rY.-N. Li, Y. Chi, Z.-D. Sun, H. G. Xue, N.-T. Suen and S.-P. Guo*. Partial substitution induced centrosymmetric to noncentrosymmetric structure transformation and promising second-order nonlinear optical properties of (K0.38Ba0.81)Ga2Se4, Chem. Commun. 2019, 55, 13701–13704. DOI: 10.1039/C9CC07112A\r\rX.-H. Li, N.-T. Suen, Y. Chi, Y. L. Sun, A. H. Gong, H. G. Xue and S.-P. Guo*. Partial congener substitution induced centrosymmetric to noncentrosymmetric transformation witnessed by K3Ga3(Ge7-xMx)Se20 (M = Si, Sn) and their nonlinear optical properties, Inorg. Chem. 2019, 58, 13250–13257. DOI: 10.1021/acs.inorgchem.9b02113\r\rQ.-T. Xu,# Z.-D. Sun,# Y. Chi and S.-P. Guo*. Monoclinic gallium selenide: an AgGaS2-type structure variant with balanced infrared nonlinear optical performance, J. Mater. Chem. C 2019, 7, 11752–11756. DOI: 10.1039/C9TC03909K\r\rZ.-H. Shi, Y. Chi, Z.-D. Sun, W. L. Liu* and S.-P. Guo*. Sn2Ga2S5: a type of IR nonlinear-optical material, Inorg. Chem. 2019, 58, 12002–12006. DOI: 10.1021/acs.inorgchem.9b02021\r\rM.-M. Chen, H.-G. Xue and S.-P. Guo*. Multinary metal chalcogenides with tetrahedral structures for second-order nonlinear optical, photocatalytic, and photovoltaic applications, Coord. Chem. Rev. 2018, 368, 115–133.\r\rY. Pan, H.-G. Xue, S.-P. Guo*, B.-W. Liu and G.-C. Guo*. Second-order nonlinear optical crystals with mixed-anions, Coord. Chem. Rev. 2018, 374, 464–496. (注:第一完成单位)\r\rJ.-R. Xiao, S.-H. Yang, F. Feng, Huai-Guo Xue and S.-P. Guo*. A review of the structural chemistry and physical properties of metal chalcogenide halides, Coord. Chem. Rev. 2017, 347, 23–47.\r\rS.-P. Guo*, Y. Chi and G.-C. Guo*. Recent achievements on middle and far-infrared second-order nonlinear optical materials, Coord. Chem. Rev. 2017, 335, 44–57.\r\rQ.-T. Xu, H.-G. Xue and S.-P. Guo*. Status and prospects of SexSy cathodes for lithium/sodium storage, Inorg. Chem. Front. (邀请综述), 2019, 6, 1326–1340.\r\rZ.-T. Lu, Z.-D. Sun, Y. Chi, H.-G. Xue and S.-P. Guo*. Balanced second-order nonlinear optical properties of adducts CHI3•(S8)3 and AsI3•(S8)3: a systematic survey, Inorg. Chem. 2019, 58, 4619–4625.\r\rY. Chi, T.-F. Jiang, H.-G. Xue and S.-P. Guo*. Transition metal free monoclinic Eu8In17.33S34 and its anisotropic photoelectronic responses, Inorg. Chem. 2019, 58, 3574–3577.\r\rZ.-H. Yue,# Z.-T. Lu,# H.-G. Xue and S.-P. Guo*, KBiCl2SO4: the first bismuth chloride sulphate being second-order nonlinear optical active, Cryst. Growth Des. 2019, 19, 3843–3850.\r\rS.-P. Guo*, Z.-D. Sun, Y. Chi, Z.-T. Lu and H.-G. Xue, Adduct-type IR nonlinear-optical crystal SbI3∙(S8)3 with a large second-harmonic generation and a high laser-induced damage threshold, Inorg. Chem. 2018, 57, 11282–11288.\r\rY. Chi, H.-G. Xue and S.-P. Guo*. The first investigation of europium silicate melilite for second-order nonlinear optical application: experimental and theoretical studies, Dalton Trans. 2018, 47, 13434–13441.\r\rY. Chi, L.-Z. Rong, N.-T. Suen, H.-G. Xue and S.-P. Guo*. Crystal chemistry and photocatalytic properties of RE4S4Te3 (RE = Gd, Ho, Er, Tm), experimental and theoretical investigations, Inorg. Chem. 2018, 57, 5343–5351.\r\rQ.-T. Xu, J.-C. Li, H.-G. Xue and S.-P. Guo*. Effective combination of FeS2 microspheres and Fe3S4 microcubes with reduced graphene oxides as anode material for high-capacity and long-cycle lithium-ion batteries, J. Power Sources 2018, 396, 675–682.\r\rQ.-T. Xu, J.-C. Li, H.-G. Xue and S.-P. Guo*. Binary iron sulfides as anode materials for rechargeable batteries: Crystal structures, syntheses, and electrochemical performance, J. Power Sources 2018, 379, 41–52.\r\rQ.-T. Xu, H.-G. Xue and S.-P. Guo*. FeS2 walnut-like microspheres wrapped with rGO as anode material for advanced lithium-ion batteries, Electrochim. Acta 2018, 292, 1–9.\r\rQ.-T. Xu, H.-G. Xue and S.-P. Guo*. Facile preparation of FeS@GO and its outstanding electrochemical performances for lithium storage, Inorg. Chem. Front. 2018, 5, 2540–2545.\r\rM.-H. Wang, Z. Ma, H.-G. Xue and S.-P. Guo*. LiFeTiO4/CNTs composite as a cathode material with high cycling stability for lithium-ion batteries, Inorg. Chem. Front. 2018, 5, 2306–2313. 相关热点
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