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王取泉

个人简介:

王取泉(Qu-Quan Wang

武汉大学物理系教授,博士生导师

物理系主任,珞珈杰出学者特聘教授

研究方向:纳米尺度下的奇异光学效应,以及在量子信息、能源、生物等方面的应用

电话: (027) 68752481-3410

地址: 武汉大学物理楼3-410

E-mail: qqwang@whu.edu.cn

 

教育及研究经历:

19791984:中国科学技术大学物理系光学专业本科毕业,理学学士;

19871990:武汉大学物理系激光专业研究生毕业,理学硕士;

19951999:武汉大学物理系凝聚态物理博士毕业,理学博士;

20012003:中国科学院国际量子结构中心,美国Texas大学Austin分校物理系博士后、访问学者。

 

研究方向:

  1.贵金属纳米结构(包括纳米颗粒、纳米棒、纳米线、纳米环、纳米棒阵列等),半导体量子点和稀土纳米晶体的可控生长和制备。    

2.纳光子体系相干操控的超快动力学(包括金属、半导体和稀土纳米复合体系),特别是半导体量子点的量子信息(如Rabi振荡、自旋动力学等)。

  3.表面等离激元的奇异光学性质(如等离激元Fano效应、等离激元天线、PIT、等离激元增强荧光、等离激元辅助的受激发射和等离激元激光)。

4.表面等离激元在量子信息、太阳能光伏效应、生物物理学等方面的应用。

 

教学经历:

《光学》,《光学实验》,《信息光学》(I),《信息光学》(II),《光学综合实验》,《现代光学讲座》,《统计光学》。

 

基金资助:

1.973项目2006CB921504,以量子点为代表的低维体系的特性及量子调控

2.973项目2007CB935304纳米尺度亚光波长结构的制备、光学性质与器件研究

3.973项目2011CB922201,半导体及其金属复合微纳结构中光电耦合动力学过程和光诱导集体激发的调控

4.国家自然科学基金重点项目10534030,半导体低维体系中自旋动力学过程的研究

5.教育部高等学校科技创新工程重大项目培育资金项目708063,金属与半导体复合纳米结构超快非线性效应与量子调控

 

代表性论文:

1.Z. J. Yang, Z. H. Hao, H. Q. Lin, Q. Q. Wang, Plasmonic Fano resonances in metallic nanorod complexes, Nanoscale 6, 4985-4997 (2014) (invited)

2.F. Nan, Z. Q. Cheng, Y. L. Wang, Q. Zhang, L. Zhou, Z. J. Yang, Y. T. Zhong, S. Liang, Q. H. Xiong, Q. Q. Wang, Manipulating Nonlinear Emission and Cooperative Effect of CdSe/ZnS Quantum Dots by Coupling to a Silver Nanorod Complex Cavity, Sci. Rep. 4, 4839 (2014).

3.F. Nan, S. Liang, J. H. Wang, X. L. Liu, D. J. Yang, X. F. Yu, L. Zhou, Z. H. Hao, Q. Q. Wang, Tunable Plasmon Enhancement of Gold/Semiconductor Core/Shell Hetero-Nanorods with Site-Selectively Grown Shell, Adv. Opt. Mater. 2, 679 (2014).

4.Y. L. Wang, F. Nan, X. L. Liu, L. Zhou, X. N. Peng, Z. K. Zhou, Y. Yu, Z. H.Hao, Y. Wu, W. Zhang, Q. Q. Wang, Z. Y. Zhang, Plasmon-Enhanced Light Harvesting of Chlorophylls on Near-Percolating Silver Films via One-Photon Anti-Stokes Upconversion, Sci. Rep. 3, 1861 (2013).

5.X. L. Liu, S. Liang, F. NanZ. J. Yang, X. F. Yu, L. Zhou, Z. H. Hao, Q. Q. Wang, Solution-dispersible Au nanocube dimers with greatly enhanced two-photon luminescence and SERS, Nanoscale 5, 5368-5374 (2013).

6.S. Liang, X. L. Liu, Y.Z. Yang, Y. L.Wang, J.H. Wang, Z. J. Yang, L. B. Wang, S. F. Jia, X .F. Yu, L .Zhou, J. B. Wang, J. Zeng, Q. Q. Wang, Z. Y. Zhang, Symmetric and Asymmetric Au-Ag CdSe Hybrid Nanorods, Nano Lett. 12, 5281-5286 (2012).

7.Z. J. Yang, Q. Q. Wang, H. Q. Lin, Cooperative effects of two optical dipole antennas coupled to plasmonic Fabry-Perot cavity, Nanoscale 4, 5308-5311 (2012).

8.Z. K. Zhou, X. N. Peng, Z. J. Yang, Z. S. Zhang, M. Li, X. R. Su, Q. Zhang, X. Shan, Q. Q. Wang, Z. Y. Zhang, Tuning Gold Nanorod-Nanoparticle Hybrids into Plasmonic Fano Resonance for Dramatically Enhanced Light Emission and Transmission. Nano Lett. 11, 49-55 (2011).

9.Q. Zhang, X. Y. Shan, F. Xiao, C. X. Wang, Q. Q. Wang, J. F. Jia, Q. K. Xue, Modulating resonance modes and Q value of a CdS nanowire cavity by single Ag nanoparticles, Nano Lett. 11, 4270-4274 (2011).

10.M. Li, X. F. Yu, S. Liang, X. N. Peng, Z. J. Yang, Y. L. Wang, Q. Q. Wang, Synthesis of Au–CdS Core–Shell Hetero-Nanorods with Efficient Exciton–Plasmon Interactions, Adv. Funct. Mater. 21, 1788-1794 (2011).

11.Y. Xiang, X. F. Yu, D. F. He, Z. Sun, Z. Cao, Q. Q. Wang. Synthesis of highly luminescent and anion-exchangeable cerium-doped layered yttrium hydroxides for sensing and photofunctional applications. Adv. Funct. Mater. 21, 4388-4396 (2011).

12. X. F. Yu, Z. B. Sun, M. Li, Y. Xiang, Q. Q. Wang, F. F. Tang, Y. L. Wu, Z. J. Cao, W. X. Li, Neurotoxin-conjugated upconversion nanoprobes for direct visualization of tumors under near-infrared irradiation. Biomater. 31, 8724-8731 (2010).

13.Z. K. Zhou, M. Li, Z. J. Yang, X. N. Peng, X. R. Su, Z. S. Zhang, J. B. Li, N. C. Kim, X. F. Yu, L. Zhou, Z. H. Hao, Q. Q. Wang, Plasmon-Mediated Radiative Energy Transfer across a Silver Nanowire Array via Resonant Transmission and Subwavelength Imaging. ACS Nano. 4, 5003-5010 (2010).

14.X. F. Yu, M. Li, M. Y. Xie, L. D. Chen, Y. Li, Q. Q. WangDopant-Controlled Synthesis of Water-Soluble Hexagonal NaYF4 Nanorods with Efficient Upconversion Fluorescence for Multicolor Bioimaging. Nano Res. 3, 51-60 (2010).

15.H. M. Gong, L. Zhou, X. R. Su, S. Xiao, S. D. Liu, Q. Q. Wang, Illuminating Dark Plasmons of Silver Nanoantenna Rings to Enhance Exciton-Plasmon Interactions. Adv. Funct. Mater. 19, 298-303 (2009).

16. 王取泉,程木田,刘绍鼎,王霞,周慧君,基于半导体量子点量子计算与量子信息,中国科学技术大学出版社(2009)

17.X. F. Yu, L. D. Chen, Y. Li, M. Li, M. Y. Xie, L. Zhou, Q. Q. Wang, Highly Efficient Fluorescence of NdF3/SiO2 Core-shell Nanocrystals and the Applications for in vivo NIR Detection. Adv. Mater. 20, 4118-4123 (2008).

18.L. D. Chen, J. Liu, X. F. Yu, M. He, X. F. Pei, Z. Y. Tang, Q. Q. Wang, D. W. Pang, Y. Li, Biocompatibility of quantum dot probes used for targeted imaging of hepatocellular carcinoma metastasis. Biomater. 29, 4170-4176 (2008).

19.H. Deng, S. Yang, S. Xiao, H. M. Gong, Q. Q. Wang, Controlled Synthesis and Upconverted Avalanche Luminescence of Cerium(III) and Neodymium(III) Orthovanadate Nanocrystals with High Uniformity of Size and Shape. J. Am. Chem. Soc. 130, 2032-2040 (2008).

20.Q. Q. Wang, J. B. Han, D. L. Guo, S. Xiao, Y. B. Han, H. M. Gong, X.W. Zou, Highly Efficient Avalanche Multiphoton Luminescence from Coupled Au Nanowires in the Visible Region. Nano Lett. 7, 723-728 (2007).

21.Q. Q. Wang, J. B. Han, H. M. Gong, D. J. Chen, X. J. Zhao, J. Y. Feng, J. J. Ren, Linear and nonlinear optical properties of Ag nanowire polarizing glass. Adv. Funct. Mater.. 16, 2405-2048 (2006).

22.Q. Q. Wang, A. Muller, M. T. Cheng, H. J. Zhou, P. Bianucci, C. K. Shih. Coherent control of a V-type three-level system in a single quantum dot. Phys. Rev. Lett.. 95, 187404 (2005).

 

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