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茅惠兵

教授

永利yl23411集团官网      

个人资料

  • 部门: 永利yl23411集团官网
  • 毕业院校:
  • 学位: 理学博士
  • 学历:
  • 邮编:
  • 联系电话:
  • 传真:
  • 电子邮箱: hbmao@ee.ecnu.edu.cn
  • 办公地址:
  • 通讯地址: 上海市东川路500号, 永利yl23411集团官网信息楼, 200241

教育经历

1985年9月-1989年7月   复旦大学物理系           本科

1989年9月-1992年6月   中科院上海光学精密机械研究所  硕士研究生

1992年9月-1995年6月   中科院上海技术物理研究所      博士研究生


工作经历

1998年-       永利yl23411集团官网


个人简介

社会兼职

研究方向

研究方向:

1. 量子点等低维半导体材料的制备

2. 纳米结构半导体的光学性质

3. 光子晶体特性研究

4. 稀土材料的频率上转换发光

招生与培养

开授课程

科研项目

参加了国家重大科学研究计划项目(973 项目)、主持了国家自然科学基金等多项国家与省部级项目以及国家重点实验室开放基金项目。

主持的主要科研项目:

1. 国家自然科学基金项目:光子晶体及表面等离激元对磁偶极辐射的调控规律研究(2022-2025)

2. 国家自然科学基金项目:表面等离激元与半导体微腔的耦合及其对激子极化激元单光子与双光子自发辐射的调控研究(2013-2016)。  

3. 国家自然科学基金项目:二维光子晶体中量子点的自发辐射及其瞬态特性研究(2006-2008)。



学术成果

主要从事表面等离激元、光子晶体、半导体微腔、量子点、量子阱及纳米晶等低维半导体材料的制备与特性研究工作。在国内外著名学术刊物发表各类学术论文60多篇‚包括多个国际著名刊物‚如 Optics Letters, Applied Physics Letters, Optics Express, J. Phys. D‚ J. of  MicroElectro-Mechanical Systems等。申请国家发明专利十余项,已获授权6项。


出版教材: 《半导体物理学》,2023年9月,科学出版社


近期论文发表情况:   

  1. Yu He, Xin Li, Yangyang Guo, Huibing Mao*, Ye Chen, Jiqing Wang, Upconversion emission and its color modulation of the ZnS: Ho3+, Yb3+, Mn2+ nanomaterials, Applied Physics A, 130:433(2024)

  2.  Yu He, Xin Li, Yangyang Guo, Huibing Mao*, Ye Chen, Jiqing Wang, Upconversion emission and its color modulation of the YVO4 : Er 3+, Yb3+, Cr3+ nanoparticles, Optical Engineering, 63(3):037106(2024)

  3.  Xin Li, Yu He, Yangyang Guo, Huibing Mao*, Ye Chen, Jiqing Wang, Upconversion emission and the emission color modulation of the NaMgF3: Er3+, Yb3+, Mn2+ submicron particles,  Optical and Quantum Electronics 55, 958(2023)

  4.  Ke Li, Xin Li, Huibing Mao*, Ye Chen, Jiqing Wang, Upconversion emission and second harmonic generation of the YVO4: Tm3+, Er3+, Yb3+ inverse opals, Optical Materials, 125:112053(2022)

  5.  Ke Li, Tingting Chen, Huibing Mao*, Ye Chen, Jiqing Wang, Preparation and Upconversion emission investigation of the YVO4: Yb3+: Er3+ nanomaterials and their coupling with the Au nanoparticles, Journal of Electronic materails, 50(3):1189(2021)

  6. Tingting Chen, Ke Li, Huibing Mao*, Ye Chen, and Jiqing Wang, Preparation and upconversion emission investigation of the YVO4: Yb3+ /Tb3+ /Eu3+ nanomaterials and their coupling with the Au nanoparticles, Crystal Research and Technology 55: 2000001, 2020

  7.   Ke Li, Tingting Chen, Huibing Mao*, Ye Chen, Jiqing WangPreparation and Photoluminescence Investigation of the LaPO4:Eu3+ Inverse Opal StructureOptics Letters: 45, 2752(2020).

  8.  Ke Li, Dongliang Zheng, Wangqiong Xu, Huibing Mao*, Jiqing Wang, W states fusion via polarization-dependent beam splitter, Quantum Information Processing 19, 412(2020).

  9. Tingting Chen, Ke Li, Huibing Mao*, Jiqing Wang, Optical response to the linear and circular polarized light of the doublespirals structure, Optical and Quantum Electronics 52, 101(2020).

  10.  Ke Li, Tingting Chen, Xu Hong, Huibing Mao*, Jiqing Wang, Qubit-loss-free fusion of W states in cavity quantum electrodynamics system, Quantum Information Processing 18, 273(2019).

  11. Tingting Chen, Ke Li, Huibing Mao*, Ye Chen, Jiqing Wang, Guoen Weng, Photoluminescence Investigation of the InP/ZnS Quantum Dots and their Coupling with the Au Nanorods, Journal of electronic materials 48, 3497(2019).

  12. Ke Li, Tingting Chen, Huibing Mao*, Jiqing Wang, Preparing large-scale maximally entangled W states in optical system, Quantum Information Processing 17, 307(2018).

  13.  Tingting Chen, Huibing Mao*, Jiqing Wang, Optical chirality of the double “L” structure, Optical and Quantum Electronics 50, 247(2018).

  14. Huibing Mao*, Ye Chen, Jiqing WangRaman scattering and luminescence emission of the CdSe/ZnS quantum dots mediated by the surface plasmon, Optical and Quantum Electronics 47, 2811(2015).

  15. Huibing Mao*, Ling Du, Ye ChenBo Li, Rong Huang, Jiqing Wang, Luminescence Emission Mediated by Surface Plasmon in the Semiconductor Quantum Dots, Nano 10, 15500091 (2015).

  16. Huibing Mao*, Jiqing Wang, Surface plasmon coupling effects on the fundamental modes in the nanowire, Nano 9, 1450045(2014).

  17. Ling Du, Huibing Mao*, Xuqiang Luo, Jiqing Wang, Multiple kinds of emission modes in semiconductor microcavity coupled with plasmon, Physica B: Condensed Matter 434, 74(2014).

  18. Xuqiang Luo, Jiqing Wang, Huibing Mao*,Zdenek Remes and Karal Kral,Photoluminescence eiginmodes in the ZnO semiconductor microcavity on the Ag/Si substrate, Appl. Physics A 112, 821(2013)

  19.  Xiaoliang Ye, Huibing Mao*, Shili Hou and Jiqing Wang,Temperature dependence of photoluminescence and magnetic properties in Yb3+-doped ZnS nanocrystals, Physica B 406, 3318(2011) 

  20.  Xiaoliang Ye, Huibing Mao* and Jiqing Wang, Dependence of photoluminescence properties on excitation power in ZnO and ZnCdO microrods, Crystal Research and Technology 46, 1303(2011)

  21.  Xiaoliang Ye, Huibing Mao*,Jiqing Wang, Ziqing Zhu,Whispering gallery modes with different polarizations in semiconductor microrod with rectangle shape, Appl. Phys. lett. 99, 261112(2011).

  22. Huibing Mao*,Jiqing Wang, Ke Yu, Ziqiang Zhu,TM and TE propagation modes of photonic crystal waveguide based on honeycomb lattics, Appl.Optics, 49,6597(2010)  

  23. Shili Hou‚ Yeungyau Yuen‚ Huibing Mao*‚ Jiqing Wang‚ Ziqiang Zhu‚ Photoluminescence Properties of the Eu3+-doped ZnS  nanocrystals and the Crystal Field Analysis‚ J. of  Physics D, 42, 215105(2009)

  24. Shili Hou‚ Xiangqiang Zhang‚ Huibing Mao*‚ Jiqing Wang‚ Ziqiang zhu‚ Photoluminescence and XPS investigations of Cu2+ -  doped ZnS quantum dots capped with polyvinylpyrrolidone‚ Phys. Status Solidi B 246‚ 2333(2009)  

  25. Shili Hou‚ Huibing Mao*‚ Jiqing Wang‚ Ziqiang zhu‚ Mechanism of fluorescence energy transfer in aqueous solution cadmiun aulfide quantum dos, Applied Physics A, 94, 795(2009)  

  26. Huibing Mao*‚ Ke Yu‚ Jiqing Wang‚ Jianguo Yu‚ and Ziqiang Zhu‚ Photoluminescence eigenmodes in a single ZnO nanobelt covering the ultraviolet and visible band‚ Optics Express‚ 17‚ 11860(2009) 

  27. Huibing Mao*‚ Weiping Jing‚ Jiqing Wang‚ Jianguo Yu‚ Li Wang‚ Ning Dai‚Nucleation and growth mechanism of GaAs epitaxial growth‚  Thin Solid Films‚ 515,3624(2007) 

 
 

荣誉及奖励

10 访问

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