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特任副研究员
- 电子邮箱:50221873ed1f96c0941ba5fd359d8d0d0f7ce59d287767bd23cc7a9d02da7b26890608f7f1304517b35dd715cab22b996a8343a2058337f2c4b50049342e5518ea8ab6815c300664aa4080fad112b35a6774cec636fc0d75a6ca0075f9f185770bddb20327bb0a84994361a4adf714d46672c65b8922e82949051fbe374d3130
- 学位:博士
访问量:
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[ 1 ]C. Fu, C. Zhao, Q. Zheng, X. Li, J. Zhao and J. Yang*, Halogen modified two-dimensional covalent triazine frameworks as visible-light driven photocatalysts for overall water splitting, Science China Chemistry, 2020, 63,1134.
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[ 2 ]C. Fu, X. Wu* and J. Yang*, Materials design for photocatalytic water splitting from a theoretical perspective, Advanced Materials, 2018, 30, 1802106.
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[ 3 ]C. Fu, J. Sun, Q. Luo, X. Li, W. Hu and J. Yang*, Intrinsic electric fields in two-dimensional materials boost the solar-to-hydrogen efficiency for photocatalytic water splitting, Nano Letters, 2018, 18, 6312.
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[ 4 ]C. Fu, X. Li, Q. Luo and J. Yang*, Two-dimensional multilayer M2CO2 (M = Sc, Zr, Hf) as photocatalysts for hydrogen production from water splitting: A first principles study, Journal of Materials Chemistry A, 2017, 5, 24972.
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[ 5 ]C. Fu, Q. Luo, X. Li and J. Yang*, Two-dimensional van der Waals nanocomposites as Z-scheme type photocatalysts for hydrogen production from overall water splitting, Journal of Materials Chemistry A, 2016, 4, 18892.
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[ 6 ]C. Fu and S. X. Tian*, A comparative study for molecular dynamics simulations of liquid benzene, Journal of Chemical Theory and Computation, 2011, 7, 2240.
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[ 1 ]二维Z型光解水制氢材料及其催化机理的理论研究,进行,
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[ 2 ]二维光解水制氢材料中光生电子和空穴演化动力学的理论研究,进行,
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[ 3 ]具有垂直偶极的二维光解水制氢材料中激发态电子和空穴演化动力学的理论研究,进行,
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[ 4 ]红外光解水制氢二维材料的理论研究,完成,
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[ 5 ]二维光解水材料的理论设计,进行,
