个人简介
2008年1月于香港大学物理系获博士学位,现任东南大学物理系副教授。
研究领域
(1) 一维半导体纳米材料、复合纳米材料的可控生长 (2) 纳米材料的光催化性质及其在太阳能电池方面的应用 (3) 一维纳米材料生长机制和生长动力学
近期论文
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[15]. X. Ge, K.Q. Hong(通讯作者), J. Zhang, L.Q. Liu and M.X. Xu, A controllable microwave-assisted hydrothermal method to synthesize ZnO nanowire arrays as recyclable photocatalyst, Materials Letters, 139 (2015) 119-121 [14]. X. F. Bian, K.Q. Hong(通讯作者), X. Ge, R. Song, L.Q. Liu and M.X. Xu, Functional Hierarchical Nanocomposites Based on ZnO Nanowire and Magnetic Nanoparticle as Highly Active Recyclable Photocatalysts TheJournal of Physical Chemistry C, 119 (2015) 1700-1705 [13].L.Q. Liu, K.Q. Hong(通讯作者) X. Ge, D. M. Liu, M.X. Xu,, Controllable and rapid synthesis of long ZnO nanowire arrays for dye-sensitized solar cells, TheJournal of Physical Chemistry C 118 (2014) 15551−15555 [12]. H. Huang, Q. Zhao, K.Q. Hong, Q.Y. Xu, X.P. Huang, “Optical and electrical properties of N-doped ZnO heterojunction photodiode” Physica E, 57 (2014) 113–117 [11].L.Q. Liu, K.Q. Hong(通讯作者) X. Ge, M.X. Xu, “Aligned CuO nanorod arrays: fabrication and anisotropic ferromagnetism” Applied Physics A, 115 (2014) 1147–1150 [10]. L.Q. Liu,K.Q. Hong(通讯作者) H.J. Liu, Z.W. Luo, F.G. Zhao, M.X. Xu, “Rapid growth of copper oxide nanorod arrays by a microwave heating approach” Physica E, 53 (2013) 106–109 [9]. X.F. Bian, K.Q. Hong(通讯作者), L.Q. Liu and M.X. Xu, “Magnetically separable hybrid CdS-TiO2-Fe3O4 nanomaterial: Enhanced photocatalystic activity under UV and visible irradiation” Applied Surface Science 280 (2013) 349– 353, Time cited: 6 [8]. X.F. Bian, K.Q. Hong(通讯作者), F.G.. Zhao, and M.X. Xu, “Effect of Ultrasonic Treatment on the Magnetization Enhancement of Fe3O4 Nanocrystallines” Journal of Superconductivity and Novel Magnetism 26 (2013) 3305-3308 [7].K.Q. Hong, M. An, R. Song, L.Q. Liu and M.X. Xu, “Vapour phase synthesis of aligned molybdenum oxide nanowires at low temperature”, Physica status solidi (RRL) - Rapid Research Letters, 6(2012) 86-88 [6]. K.Q. Hong, R. Song, L.Q. Liu and M.X. Xu, “Synthesis and cathode luminescence properties of ZnO multipod nanoneedles”, Materials Letters, 67 (2012) 202-204 [5]. L.Q. Liu, K.Q. Hong (通讯作者), T.T. Hu and M.X. Xu, “Synthesis of aligned copper oxide nanorod arrays by a seed mediated hydrothermal method”, Journal of Alloys and Compounds, 511(2011) 195-197, Time cited: 13 [4].K.Q. Hong, M.H. Xie, R. Hu and H.S. Wu, “Diameter-control of tungsten oxide nanowires as grown by thermal evaporation”, Nanotechnology,19 (2008) 085604, Time cited: 13 [3]. K.Q. Hong, M.H. Xie, R.Hu and H.S. Wu, “Synthesize tungsten oxide nanowires by a thermal evaporation method ”, Applied Physics Letters, 90 (2007) 173121 , Time cited:29 [2].K.Q. Hong, M.H. Xie and H.S. Wu, “Tungsten oxide nanowires synthesized by a catalyst-free method at low temperature”, Nanotechnology, 17 (2006) 4830-4833, Time cited: 43 [1].K.Q. Hong, W.C. Yiu, H.S. Wu, J. Gao and M.H. Xie, “A simple method for growing high quantity tungsten-oxide nanoribbons under moist conditions” Nanotechnology, 16 (2005) 1608-1611, Time cited: 41