许小亮
姓名:许小亮 XuXiaoliang
职称:教授 Professor of Physics
电话:0551-63607574 13339109882
邮箱:xlxu@ustc.edu.cn
网页:中国科学技术大学薄膜物理实验室http://staff.ustc.edu.cn/~lism/xuxiaoliang.htm
研究方向:
新型太阳能电池、量子点和纳米金属生物探针制剂、红外吸波或光热材料、自清洁材料以及光电功能薄膜材料。。
个人简介:
许小亮,1960年生于江苏省南京市。1983年获中国科技大学理学学士并留校工作,1988年任讲师。1999年获香港大学物理系半导体物理学博士。1999-2005年任中国科技大学物理系副教授、硕导。2005以来任中国科技大学物理系教授、博导。主持的半导体光电功能材料研究分别于2003、2004年通过省部级鉴定,并获得安徽省高等院校优秀科研成果一等奖(2003排名第一),以及安徽省科学技术(自然科学类)二等奖(2004排名第一)。近年来从事低维纳米金属/半导体复合体系的表面等离子激元荧光增强效应或吸收增强效应的研究。在新型纳米生物探针(用于荧光和磁性定位、光热与磁热治疗、以及上述各种功能的复合探针)、高效太阳能电池(用纳米光学能隙进行量子调控,以达到吸收与转换增强的效果)、以及清洁材料和红外-太赫兹宽波段隐形等方面,申请发明专利18项(已公开,包括一国际发明专利。其中获授权7项)、实用新型专利4项(获授权3项)。发表论文共154篇(95%以上为第一作者或通讯作者,其中90%为SCI、EI收录)。
近3年来主要论文(均为通讯作者):
1) Yizhi Wu, Cheng Zhang, Ye Yuan, Ziwen Wang, Weijia Shao, Huijie Wang, and Xiaoliang Xu, Fabrication of wafer-size monolayer close-packed colloidal crystals via slope self-assembly and thermal treatment, Langmuir 29,(2013)14017-23
2) Naiqiang Yin, Ling Liu, Jiemei Lei, Tongtong Jiang, Lixin Zhu, Xiaoliang Xu, Preparation of gold tetrananocages and their photothermal effect, Chin. Phys. B 22,(2013) 097502
3) Naiqiang Yin, Yansong Liu, Ling Liu, Jiemei Lei, Tongtong Jiang, Huijie Wang, Lixin Zhu, Xiaoliang Xu, Fluorescence enhancement of Ru(bpy)32+ by core–shell Ag@SiO2 nanocomposites, Journal of Alloys and Compounds 581,(2013) 6-10
4) Tongtong Jiang, Naiqiang Yin, Ling Liu, Jiemei Lei, Lixin Zhu, Xiaoliang Xu, A novel approach method to prepare Au nanocage@ SiO2 nanoparticle,Chinese Physics B 22(12), (2013)126102
5) Jing Yu, Weijia Shao, Yao Zhou, Huijie Wang, Xiao Liu, Xiaoliang Xu, Nano Ag-enhanced energy conversion efficiency in standard commercial pc-Si solar cells and numerical simulations with finite difference time domain method. Applied Physics Letters 103, (2013) 203904
6) Maogang Gong, Zhou Yang, Xiaoliang Xu, Daniel Jasion, Shin Mou, Hongdi Zhang, Yunze Long and Shenqiang Ren. Superhydrophobicity of Hierarchical ZnO Nanowire Coatings. Journal of Materials Chemistry A. 2, (2014)6180-6184
7) Jing Yu, Huijie Wang, Weijia Shao, Xiaoliang Xu, Superamphiphobic and light-trapping FeSe2 particles with micro-nano hierarchical structures obtained by an improved solvothermal method. Chinese Physics B 23(1), (2014) 016803
8) T.T.Jiang, Lixin Zhu, Xiaoliang Xu, Enhanced photoluminescence of CdSe quantum dots by the coupling of Ag nanocube and Ag film. Chinese Physics B 23(8),(2014)086102
9) Wang Huijie, Yu Jing, Wu Yizhi, Shao Weijia, Xu Xiaoliang, A facile two-step approach to prepare superhydrophobic surface on copper substrate. Journal of Materials Chemistry A. 2 (14), (2014)5010 – 5017
10) Wu, Yizhi; Xu, XiaoLiang, “Engineered fluorescence of quantum dots via plasmonic nanostructures”. Solar Energy Materials and Solar Cells 126C, (2014) 113-119
11) Jiang Tong-Tong, Shao Wei-Jia, Yin Nai-Qiang, Liu Ling,Song Jiang-Lu-Qi, Zhu Li-Xin, and Xu Xiao-Liang, Enhanced photoluminescence of CdSe quantum dots by the coupling of Ag nanocube and Ag film. Chin. Phys. B 23(8) (2014) 086102
12) Jiang Tongtong, Yin Naiqiang, Liu Ling, Zhu Lixin, Xu Xiaoliang, Au nanoflower@ SiO2@CdTe/CdS/ZnS quantum dots multi-functional nanoprobe for photothermal treatment and cellular imaging. RSC Advances. 4(2014), 23630-23636
13) Jing Yu, Huijie Wang, Weijia Shao, Xiaoliang Xu , HF-assist one-step synthesis of pompon-like/chip-like FeSe2 particles and their superamphiphobic /antireflective property. RSC Advances. 4(2014), 24163-24169.
14) Huijie Wang, Zhou Yang,Jing Yu,Weijia Shao, Xiaoliang Xu , Preparation of lotus-like hierarchical microstructures on zinc substrate and its wettability study. RSC Advances. 4(2014) 33730-33738.
15) Lin Liu, Xiaoliang Xu, Localized Surface Plasmon Enhanced Luminescence of GaN-Based Light-Emitting Diode. Sci. Adv. Mats. 6,(2014) 1026-1031
16) Jin Yu, Xiaoliang Xu, Fengcai Lei, Superamphiphobic, light-trapping FeSe2 particles with a micro-nano hierarchical structure obtained by an improved solvothermal method. Chinese Physics B 23(6),(2014)016803
17) Mingya Yang, Lixin Zhu, Xiaoliang Xu, Colloidal monolayer self-assembly and its simulation via cellular automaton model. Chinese Physics B 23(8),(2014)088703
18) Weijia Shao, Xiaoliang Xu, Huijie Wang, “Extraordinary optical transmission through a subwavelength composite hole-pillar array. Chinese Physics B, 23(9),(2014)117301
19) Weijia Shao, Xiaoliang Xu, Huijie Wang, “A Manipulated Extraordinary Optical Transmission Filter Composed with Subwavelength Hole Complex Arrays” Plasmonics, 9,(2014)1025-1030
20) Yizhi Wu, Xiaoliang Xu, Ordered silicon nanorod arrays with controllable geometry and robust hydrophobicity. Chinese Physics B, 24(1),(2015) 017802
21) Song, Jiangluqi;Jiang, Tongtong;Guo, Tianyi;Liu, Ling;Wang, Huijie;Xia, Tongyan;Zhang, Wenting;Ye, Xuecheng;Yang, Mingya;Zhu, Lixin;Xia, Ruixiang;Xu, Xiaoliang, Facile Synthesis of Water-Soluble Zn-Doped AgIn5S8/ZnS Core/Shell Fluorescent Nanocrystals and Their Biological Application. Inorgannic Chemistry, 54(2),(2015)1627-1633
22) Tongtong Jiang, Jiangluqi Song, Wenting Zhang, Hao Wang, Xiaodong Li, Ruixiang Xia,* Lixin Zhu, and Xiaoliang Xu, Aqueous synthesis of color tunable Cu doped Zn-In-S/ZnS nanoparticles in the whole visible region for cellular imaging, JMCB, 3(2015) 2402-2410
23) Wenting Zhang, Xiaodong Li, Tongtong Jiang, Jiangluqi Song, Yue Lin, Lixin Zhu and Xiaoliang Xu, CVD synthesis of Mo (1−x)WxS2 and MoS2(1−x) Se2x alloy monolayers aimed at tuning the bandgap of molybdenum disulfide. Nanoscale, 7,(2015) 13554-13560
24) Tongtong Jiang, Jiangluqi Song, Wenting Zhang, Hao Wang, Xiaodong Li, Ruixiang Xia, Lixin Zhu, and Xiaoliang Xu, Au−Ag@Au Hollow Nanostructure with Enhanced Chemical Stability and Improved Photothermal Transduction Efficiency for Cancer Treatment. ACS Appl. Mater. Interfaces 7,(2015) 21985−21994
25) Jiangluqi Song, Tongtong Jiang, Gengwu Ji, Wenting Zhang, Xiangyi Cheng, Wei Weng, Lixin Zhu, Xiaoliang Xu, Visible-light-driven floriated ZnIn2S4 /AgIn5S8 heteromicrospheres catalyst for dye degradation. RSC Advances, 5,(2015) 95943
26) Luyan Liu, Chen Chen, Siyu Yang, Hua Xie, MaoGang Gong and Xiaoliang Xu, Fabrication of Superhydrophilic-underwater Superoleophobic Inorganic anti-corrosive Membranes for High-efficiency oil/water Separation. Phys. Chem. Chem. Phys., 18(2016) 1317--1325