刘心娟 - 中国计量大学 - 材料科学与工程学院

个人简介

教育经历: 2010.09–2013.07 博士: 纳米物理学华东师范大学导师：孙卓潘丽坤 2007.09–2010.07 硕士: 材料物理与化学湘潭大学导师：孙长庆 2003.09–2007.07 学士: 物理学太原师范学院工作经历: 2015.06-至今讲师中国计量学院 2013.06 –2015.06 博士后上海市纳米科技与产业发展促进中心导师：闵国全宋志棠

研究领域

环境及能源光催化水的反常物性

近期论文

查看导师新发文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

1. 专题报告 (1) X. J. Liu, X. Zhang, M.L. Bo, L. Li, Y.G. Nie, H. Tian, S. Q. Xu, Y. Wang, and C.Q. Sun, Coordination-resolved electron spectrometrics, Chemical Reviews, 115(14), 6746-6810 (2015). (2) J. W. Li, S. Z. Ma, X. J. Liu, Z. F. Zhou, C. Q. Sun‚ ZnO meso-mechano-thermo physical chemistry, Chemical Reviews, 112(5), 2833-2852 (2012). (3) L. K. Pan‚ S. Q. Xu, X. J. Liu‚ W. Qin, Z. Sun‚ W. T. Zheng, C. Q. Sun‚ Skin dominance of the dielectric-electronic-phononic-photonic attribute of nanoscaled silicon, Surface Science Reports 68(3-4), 418-445 (2013). (4) L. K. Pan, X. J. Liu, Z. Sun, C. Q. Sun, Nanophotocatalysts via microwave-assisted solution-phase synthesis for efficient photocatalysis (review), Journal of Materials Chemistry A, 1(29), 8299-8326 (2013). 2. 基于低配位量子理论的氢键非对称弛豫与水的反常物性 (1) X. Zhang, P. Sun, Y. L. Huang, Z. S. Ma, X. L. Liu,* J. Zhou, W. T. Zheng, and C. Q. Sun, Water Nanodroplet Thermodynamics: Quasi-Solid Phase-Boundary Dispersivity, The Journal of Physical Chemistry B, 119(16), 5265-5269 (2015). (2) X. Zhang, Y. L. Huang, P. Sun, X. L. Liu,* Z. S. Ma, Y. C. Zhou, J. Zhou, W. T. Zheng, and C. Q. Sun, Ice Regelation: Hydrogen-bond extraordinary recoverability and water quasisolid-phase-boundary dispersivity, Scientific Reports, 5, 13655 (2015). (3) X. Zhang, T. T. Yan, Y. L. Huang, Z. S. Ma, X. J. Liu, B. Zou and Chang Q. Sun, Meditating relaxation and polarization of hydrogen-bonds in water by NaCl salting and heating, Physical Chemistry Chemical Physics, 16, 24666-24671 (2014). 3. 纳米半导体在光催化及钠离子电池中的应用 (1) X. J. Liu, T. Q. Chen, H. P. Chu, L. Y. Niu, Z. Sun, L. K. Pan, C. Q. Sun, Fe2O3-reduced graphene oxide composites synthesized via microwave-assisted method for sodium ion batteries, Electrochimica Acta, 166, 12-16 (2015). (2) X. J. Liu, H. P. Chu, J. L. Li, L. Y. Niu, C. Li, H. L. Li, L. K. Pan and C. Q. Sun, Light converting phosphors-based photocatalytic composites, Catalysis Science & Technology, 5(10), 4727-4740 (2015).(back cover) (3) X. J. Liu, L. K. Pan, T. Lv, Z. Sun, CdS sensitized TiO2 film for photocatalytic reduction of Cr(VI) by microwave-assisted chemical bath deposition method, Journal of Alloys and Compounds, 583, 390-395 (2014). (ESI) (4) X. J. Liu, L. K. Pan, Q. F. Zhao, T. Lv, G. Zhu, T. Q. Chen, T. Lu, Z. Sun, C. Q. Sun, UV-assisted photocatalytic synthesis of ZnO-reduced graphene oxide composites with enhanced photocatalytic activity in reduction of Cr(VI), Chemical Engineering Journal, 183, 238-243 (2012). (ESI) (5) X. J. Liu‚ X. J. Wang, H. L. Li, L. K. Pan‚ T. Lv‚ Z. Sun‚ C. Q. Sun‚ Microwave-assisted synthesis of ZnO-Y3Al5O12:Ce3+ composites with enhanced visible light photocatalysis, Journal of Materials Chemistry, 22(32), 16293-16298 (2012). (6) X. J. Liu‚ L. K. Pan‚ T. Lv‚ G. Zhu‚ Z. Sun‚ C. Q. Sun‚ Microwave-assisted synthesis of CdS-reduced graphene oxide composites for photocatalytic reduction of Cr(VI), Chemical Communications, 47(43), 11984-11986 (2011). (ESI) 4. 键弛豫理论（BOLS）理论在低维固体中的应用 (1) X. J. Liu‚ L. K. Pan‚ Z. Sun‚ Y. M. Chen‚ X. X. Yang‚ L. W. Yang‚ Z. F. Zhou‚ C. Q. Sun‚ Strain engineering of the elasticity and the Raman shift of nanostructured TiO2, Journal of Applied Physics, 110(4)‚ 044322 (2011). (2) X. J. Liu, L. K. Pan, Z. Sun, X. H. Wang, J. Zhou, L. T. Li, Chang Q. Sun, Mechanically Stiffened and Thermally Softened Bulk Modulus of BaXO3 (X = Ti‚ Zr‚ Nb) Cubic Perovskites, Journal of Applied Physics, 109(3)‚ 033511 (2011). (3) X. J. Liu, Z. F. Zhou, L. W. Yang, J. W. Li, C. Q. Sun, et al, Correlation and size dependence of the lattice strain, binding energy, elastic modulus, and thermal stability for Au and Ag nanostructures, Journal of Applied Physics, 109(7), 074319 (2011). (4) X. J. Liu, L. W. Yang, Z. F. Zhou, Paul K. Chu, Chang Q. Sun, Inverse Hall-Petch relationship in the nanostructured TiO2: Skin-depth energy pinning versus surface preperntial melting, Journal of Applied Physics, 108(7), 073503 (2010). (5) X. J. Liu, J. W. Li, Z. F. Zhou, L. W. Yang, Chang Q. Sun, et al, Size-induced elastic stiffening of ZnO nanostructures: Skin-depth energy pinning. Applied Physics Letters, 94(13), 131902 (2009).