副教授

教师姓名:周 利
单 位 澳门十大电子正规游戏网站
职 称 副教授
学 历 博士
E-mail zhouli@whu.edu.cn
研究方向 微纳光电子

详细描述

姓名:周利 (Li ZHOU)

职称/职务:副教授
地址:澳门十大电子正规游戏网站3区605  
电话:027-68752989-3605(O)
E-mail:zhouli@whu.edu.cn


学习工作经历:
1996~2000:武汉大学物理系材料物理专业本科学习,毕业获理学学士学位。  
2000~2003:武汉大学物理系微电子与固体电子学专业研究生学习,毕业获工学硕士学位。  
2005~2009:武汉大学物理系光学专业学习,毕业获理学博士学位。

2003年至今,澳门十大电子正规游戏网站工作。
2013年~2014年,新加坡南洋理工大学,博士后/访问学者。


研究兴趣:
微纳光电子材料的合成与制备、结构表征、物性研究、应用。


科研项目:
1. 国家自然科学基金青年科学基金项目61008043,主持。
2.  教育部博士点基金20100141120041,主持。
3. 武汉大学自主科研项目1101024,主持。
4.  国家自然科学基金11174229等,973项目,参加。



Li ZHOU, Ph.D.
Address: School of Physics and Technology, 3-605, Wuhan  University, Wuhan 430072, Hubei, China
Phone: (+86)-27-68752989-3605 (O)  
E-mail:zhouli@whu.edu.cn


Education and Experience:
2000, B.S. (Material Physics) Wuhan  University
2003, M.S. (Microelectronics and Solid Electronics) Wuhan  University
2009, Ph.D. (Optics) Wuhan University

2003-present,  School of Physics and Technology, Wuhan University
2013-2014, Research  Fellow/Postdoctor, SPMS-PAP, Nanyang Technological University, Singapore


Research Interests:
Design, fabrication, and application of  nanophotonics/nanoelectronics nanostructure materials, nano-photonics,  plasmonics.


Fundings:
NSFC 61008043, Specialized Research Fund for the Doctoral  Program of Higher Education of MOE 20100141120041, Research Foundation of Wuhan  University 1101024, NSFC and 973 project.


Publications:

2016

64.L. Ma, K. Chen, F. Nan, J. H. Wang, D. J. Yang, L. Zhou*, Q. Q. Wang*, Improved Hydrogen Production of Au–Pt–CdS Hetero‐Nanostructures by Efficient Plasmon‐Induced Multipathway Electron Transfer. Adv. Funct. Mater. 26, 6076-6083 (2016).

63.F. Nan, F. M. Xie, S. Liang, L. Ma, D. J. Yang, X. L. Liu, J. H. Wang, Z. Q. Cheng, X. F. Yu, L. Zhou*, Q. Q. Wang*, J. Zeng*, Growth of metal-semiconductor core-multishell nanorods with optimized field confinement and nonlinear enhancement. Nanoscale 8, 11969-11975 (2016).

62.F. Nan, S.-J. Ding, L. Ma, Z.-Q. Cheng, Y.-T. Zhong, Y.-F. Zhang, Y.-H. Qiu, X. Li*, L. Zhou*, Q.-Q. Wang*, Plasmon resonance energy transfer and plexcitonic solar cell. Nanoscale 8, 15071-15078 (2016).

61.J.-H. Wang, M. Chen, Z.-J. Luo, L. Ma, Y.-F. Zhang, K. Chen, L. Zhou*, Q.-Q. Wang, Ceria-Coated Gold Nanorods for Plasmon-Enhanced Near-Infrared Photocatalytic and Photoelectrochemical Performances. The Journal of Physical Chemistry C 120, 14805-14812 (2016).

60.Y. H. Qiu, F. Nan, Y. F. Zhang, J. H. Wang, G. Y. He, L. Zhou*, Q. Q. Wang, Size-dependent plasmon relaxation dynamics and saturable absorption in gold nanorods. J. Phys. D Appl. Phys. 49,  (2016);  (Artn 185107 10.1088/0022-3727/49/18/185107).

59.S. J. Im, G. S. Ho, D. J. Yang, Z. H. Hao, L. Zhou, N. C. Kim, I. G. Kim, Q. Q. Wang, Plasmonic phase modulator based on novel loss-overcompensated coupling between nanoresonator and waveguide. Sci. Rep.-Uk 6,  (2016);  (Artn 18660 10.1038/Srep18660).

58.M. Chen, J. H. Wang, Z. J. Luo, Z. Q. Cheng, Y. F. Zhang, X. F. Yu, L. Zhou*, Q. Q. Wang*, Facile synthesis of flower-shaped Au/GdVO4:Eu core/shell nanoparticles by using citrate as stabilizer and complexing agent. RSC Adv. 6, 9612-9618 (2016)10.1039/c5ra23958c).

 

2015

57.Y. F. Zhang, D. J. Yang, J. H. Wang, Y. L. Wang, S. J. Ding, L. Zhou*, Z. H. Hao*, Q. Q. Wang*, Multiple hybridized resonances of IR-806 chromonic molecules strongly coupled to Au nanorods. Nanoscale 7, 8503-8509 (2015)10.1039/c5nr00051c).

56.Y. F. Zhang, J. H. Wang, L. Ma, F. Nan, Z. Q. Cheng, L. Zhou*, Q. Q. Wang*, Growth of silver-coated gold nanoshells with enhanced linear and nonlinear optical responses. J. Nanopart. Res. 17,  (2015);  (Artn 157 10.1007/S11051-015-2928-2).

55.D. J. Yang, Z. J. Yang, Y. Y. Li, L. Zhou*, Z. H. Hao, Q. Q. Wang, Tunable Fano Resonance in Rod-Ring Plasmonic Nanocavities. Plasmonics 10, 263-269 (2015);  (10.1007/s11468-014-9804-2).

54.Y. L. Wang, S. Liang, M. Li, J. H. Wang, X. N. Peng, Z. J. Yang, L. Zhou, X. F. Yu, Q. Q. Wang, Tunable Plasmon Resonance and Fluorescence of Au/ZnS/CdS Core/Shell Nanorods. Plasmonics 10, 919-923 (2015);  (10.1007/s11468-015-9880-y).

53.J. H. Wang, H. Huang, D. Q. Zhang, M. Chen, Y. F. Zhang, X. F. Yu*, L. Zhou*, Q. Q. Wang*, Synthesis of gold/rare-earth-vanadate core/shell nanorods for integrating plasmon resonance and fluorescence. Nano Res. 8, 2548-2561 (2015);  (10.1007/s12274-015-0761-7).

52.F. Nan, Y. F. Zhang, X. G. Li, X. T. Zhang, H. Li, X. H. Zhang, R. B. Jiang, J. F. Wang, W. Zhang, L. Zhou, J. H. Wang, Q. Q. Wang, Z. Y. Zhang, Unusual and Tunable One-Photon Nonlinearity in Gold-Dye Plexcitonic Fano Systems. Nano Lett. 15, 2705-2710 (2015);  (10.1021/acs.nanolett.5b00413).

51.L. Ma, S. Liang, X. L. Liu, D. J. Yang, L. Zhou*, Q. Q. Wang*, Synthesis of Dumbbell-Like Gold-Metal Sulfide Core-Shell Nanorods with Largely Enhanced Transverse Plasmon Resonance in Visible Region and Efficiently Improved Photocatalytic Activity. Adv. Funct. Mater. 25, 898-904 (2015);  (10.1002/adfm.201403398).

50.S. J. Ding, F. Nan, D. J. Yang, X. L. Liu, Y. L. Wang, L. Zhou, Z. H. Hao, Q. Q. Wang, Largely Enhanced Saturable Absorption of a Complex of Plasmonic and Molecular-Like Au Nanocrystals. Sci. Rep.-Uk 5,  (2015);  (Artn 9735 10.1038/Srep09735).

49.S. J. Ding, S. Liang, F. Nan, X. L. Liu, J. H. Wang, L. Zhou*, X. F. Yu*, Z. H. Hao, Q. Q. Wang*, Synthesis and enhanced fluorescence of Ag doped CdTe semiconductor quantum dots. Nanoscale 7, 1970-1976 (2015)10.1039/c4nr05731g).

48.Z. Q. Cheng, F. Nan, D. J. Yang, Y. T. Zhong, L. Ma, Z. H. Hao, L. Zhou*, Q. Q. Wang*, Plasmonic nanorod arrays of a two-segment dimer and a coaxial cable with 1 nm gap for large field confinement and enhancement. Nanoscale 7, 1463-1470 (2015)10.1039/c4nr05544f).

 

2014
47. F. Nan, Z. Q. Cheng, Y. L. Wang, Q.  Zhang, L. Zhou*, Z.-J. Yang, Y. T. Zhong, S. Liang, Q. 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).  
46. F. Nan, S. Liang, J. H. Wang, X. L. Liu, D. J. Yang, X. F. Yu*, L.  Zhou*, Z. H. Hao, and Q. Q. Wang*, Tunable Plasmon Enhancement of  Gold/Semiconductor Core/Shell Hetero-Nanorods with Site-Selectively Grown Shell.  Adv. Opt. Mater. 2, 679-686 (2014).
45. X. L. Liu , J. H. Wang , S. Liang ,  D. J. Yang , F. Nan , S. J. Ding , L. Zhou*, Z. H. Hao*, and Q. Q. Wang*, Tuning  Plasmon Resonance of Gold Nanostars for Enhancements of Nonlinear Optical  Response and Raman Scattering, J. Phys. Chem. C 118, 9659–9664 (2014).
44. X.  L. Liu, S. Liang, M. Li, X. F. Yu*, L. Zhou, Q. Q. Wang* Facile Synthesis of Au  Nanocube-CdS Core-Shell Nanocomposites with Enhanced Photocatalytic Activity,  Chin. Phys. Lett. 31, 064203 (2014).
43. Z. Q. Cheng, Y. T. Zhong, F. Nan, J.  H. Wang, L. Zhou* and Q. Q. Wang*, Plasmonic near-field coupling induced  absorption enhancement and photoluminescence of silver nanorod arrays, J. Appl.  Phys. 115, 224302 (2014).
42. Y. L. Wang, Z. J. Yang, Z. S. Zhang, X. N.  Peng, L. Zhou, Z. H. Hao, and Q. Q. Wang*, Enhanced Transmittance and Continuum  Generation in the Hybrids of Au Nanoparticles and Ag Nanorods, J. Phys. Chem. C  118, 16060–16066 (2014).
41. J Wang, S Liang, L Ma, S Ding, X Yu*, L Zhou, Q  Wang*, One-pot synthesis of CdS-reduced graphene oxide 3D composites with  enhanced photocatalytic properties, CrystEngComm, 16, 399-405 (2014).

 

2013
40. X. L. Liu, S. Liang, F. Nan, Y. Y. Pan, J. J. Shi, L. Zhou,* S.  F., Jia, J. B. Wang, X. F. Yu, and Q. Q. Wang, Stepwise synthesis of cubic  Au-AgCdS core-shell nanostructures with tunable plasmon resonances and  fluorescence. Opt. Express 21, 24793 (2013).
39. S. Liang, M. Li, J. H. Wang,  X. L. Liu, Z. H. Hao, L. Zhou*, X. F. Yu*, Q. Q. Wang, Silica-coated and  annealed CdS nanowires with enhanced photoluminescence. Opt. Express 21, 3253  (2013).
38. X. L. Liu, S. Liang, F. Nan, Z. 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 (2013).
37. F.  Nan, S. Liang, X. L. Liu, X. N. Peng, M. Li, Z. J. Yang, L. Zhou*, Z. H. Hao, Q.  Q. Wang*, Sign-reversed and magnitude-enhanced nonlinear absorption of Au-CdS  core-shell hetero-nanorods. Appl. Phys. Lett. 102, 163112 (2013).
36. 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).
35. Y. L. Wang, Z. K. Zhou, X. N.  Peng, L. Zhou*, Z. H. Hao*, Q. Q. Wang, The Fluorescence Dynamics of Chlorophyll  a and Sodium Magnesium Chlorophyllin, Chin. Phys. Lett. 30, 098702  (2013).
34. X. F. Wang, F. Nan, S. Liang, L. Zhou, Q. Q. Wang*, Optical  Properties of Silver Nanoplates Synthesized by Photoinduced Method, Wuhan  University Journal of Natural Sciences 18, 201-206 (2013).

 

2012
33. J. B. Li, Y. Yu, X. N. Peng, Z. J. Yang, Z. K. Zhou*, L. Zhou*,  “Controlled growth and multi-photo luminescence of hexagonal arrays of Au  nanoparticles on anodic aluminum oxide templates,” J. Appl. Phys. 2012, 111,  123110.
32. J. B. Li, N. C. Kim, M. T. Cheng, L. Zhou, Z. H. Hao, Q. Q.  Wang*, “Optical bistability and nonlinearity of coherently coupled  exciton-plasmon systems,” Opt. Express 2012, 20, 1856-1861.
31. 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. Zhang, “Symmetric and  Asymmetric Au?AgCdSe Hybrid Nanorods,” Nano Lett. 2012, 12, 5281-5286.
30.  J. B. Li, Z. K. Zhou, L. Zhou, Z. H. Hao, “Synthesis and photoluminescence  properties of CdSe-Ag2Se and CdSe-Ag coaxial hetero-nanotube arrays,” Euro.  Phys. J. - Appl. Phys. 2012, 58, 10403.

 

2011
29. X. L. Liu, X. N. Peng, Z. J. Yang, M. Li, L. Zhou*, “Linear and  nonlinear optical properties of micrometer-scale gold nanoplates,” Chin. Phys.  Lett. 2011, 28, 057805.

 

2010
28. Q. Zhang, X. Y. Shan, L. Zhou, T. R. Zhan, C. X. Wang, M. Li, J.  F. Jia, J. Zi, Q. Q. Wang*, Q. K. Xue*, “Scattering focusing and localized  surface plasmons in a single Ag nanoring,” Appl. Phys. Lett. 2010, 97, 261107.  
27. T. Qiu, D. Zhao, G. H. Zhou, Y. A. Liang, Z. K. He*, Z. H. Liu, X. N.  Peng, L. Zhou, “A positively charged QDs-based FRET probe for micrococcal  nuclease detection,” Analyst 2010, 135, 2394-2399.
26. X. R. Su, W. Zhang,  L. Zhou, X. N. Peng, D. W. Pang, S. D. Liu, Z. K. Zhou, Q. Q. Wang*,  “Multipole-plasmon-enhanced f?rster energy transfer between semiconductor  quantum dots via dual-resonance nanoantenna effects,” Appl. Phys. Lett. 2010,  96, 043106.
25. X. R. Su, W. Zhang, L. Zhou, X. N. Peng, Q. Q. Wang,  “Plasmon-enhanced Forster energy transfer between semiconductor quantum dots:  multipole effects,” Opt. Express 2010, 18, 6516-6521.
24. W. Y. Yu, G. L.  Li, L. Zhou*, “Sonochemical synthesis and photoluminescence properties of  rare-earth phosphate core/shell nanorods,” J. Rare Earth. 28, 171-175 (2010).  
23. X. F. Fu, H. M. Zou*, L. Zhou, “A Novel Synthesis Route of Ag2S  Nanotubes by Sulfidizing Silver Nanowires in Ambient Atmosphere,” J. Nanosci.  Nanotechnol. 2010, 10, 5851-5856.
22. 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,  and Qu-Quan Wang*, “Plasmon-Mediated Radiative Energy Transfer across a Silver  Nanowire Array via Resonant Transmission and Subwavelength Imaging,” ACS nano  2010, 4, 5003-5010.
21. Z.-S. Zhang, Z.-J. Yang, X.-L. Liu, M. Li and L.  Zhou*, “Multiple plasmon resonances of Au/Ag alloyed hollow nanoshells,” Scripta  Mater. 2010, 63, 1193-1196.

 

2009
20. L. Zhou*, X. F. Fu, L. Yu, X. Zhang, X. F. Yu, and Z. H. Hao,  “Crystal structure and optical properties of silver nanorings,” Appl. Phys.  Lett. 2009, 94, 153102.
19. 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. 2009, 19, 298-303.  
18. Z. S. Zhang, X. R. Su, J. B. Li, Z. H. Hao, L. Zhou*, “Localized surface  plasmon of thin gold film with periodic arrays of nanoholes,” Mod. Phys. Lett. B  2009, 23, 147-153.
17. G. L. Li, X. N. Peng, M. Y. Xie, L. Yu, L. Zhou*,  “Synthesis of ZnO nanotube arrays by annealing Zn nanowire arrays in anodic  alumina membrane,” Mod. Phys. Lett. B 2009, 23, 1063-1068.
16. X. N. Peng,  X. Zhang, L. Yu, L. Zhou*, “Preparation and photoluminescence properties of  NdVO4 nanotubes in the AAO template,” Mod. Phys. Lett. B 2009, 23, 2647-2653.  
15. S. Xiao, L. Zhou, Q. Q. Wang*, H. Deng, S. Yang*, “Energy transfer and  avalanche upconversion of NdxY1-xVO4 nanocrystals,” Chin. Phys. Lett. 2009, 26,  124209.
14. X. Zhang, M. Li, X. N. Peng, and L. Zhou*, “Enhanced  fluorescence of quantum dots by Au nanoparticles on multi-color silica spheres  labeled with organic dyes and quantum dots,” IEEE Lasers & Electro-Optics  Society, SOPO 2009. Symposium on Photonics and Optoelectronics, 14-16 Aug. 2009,  5230065.

 

2008
13. L. Zhou, X. F. Yu, X. F. Fu, Z. H. Hao, K. Y. Li*, “Surface  plasmon resonance and field enhancement of Au/Ag alloyed hollow nanoshells,”  Chin. Phys. Lett. 2008, 25, 1776-1779.
12. X. N. Peng, M. Li, L. Yu, X.  Zhang, L. Zhou*, “Annealing induced aggregations and sign alterations of  nonlinear absorption and refraction of dense Au nanoparticles in TiO2 films,”  Chin. Phys. Lett. 2008, 25, 4171-4173.
11. Z. K. Zhou, X. R. Su, X. N. Peng,  L. Zhou*, “Sublinear and superlinear photoluminescence from Nd doped anodic  aluminum oxide templates loaded with Ag nanowires,” Opt. Express 2008, 16,  18028-18033.
10. H. Song, Y. Y. Zhai, Z. K. Zhou, Z. H. Hao, L. Zhou*,  “Optical nonlinearity of CdSe and CdSe-C60 quantum dot,” Mod. Phys. Lett. B  2008, 22, 3207-3213.
9. X. F. Fu, H. M. Zou*, L. Zhou, Z. K. Zhou, X. F. Yu,  Z. H. Hao, “Growth mechanism of penta-twinned Ag nanowires synthesized by polyol  process,” Acta Phys.-Chim. Sin. 2008, 24, 781-787.
8. 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. 2008, 20, 4118-4123.
7.  张宗锁,程木田,刘绍鼎,苏雄睿,郝中华,周利*,带有周期排列纳米孔结构金薄膜的散射光学性质,激光与光电子学进展, 2008, 45(8),  54-58.
6. 李敏,周张凯,苏雄睿,张宗锁,喻学锋,周利*,银纳米棒复合材料的非线性色散与单光子和双光子品质因子,激光与光电子学进展, 2008,  45(7), 57-60.

 

2007
5. X. F. Yu, L. D. Chen, K. Y. Li, Y. Li, S. Xiao,  X. Luo, J. Liu, L. Zhou, Y. L. Deng, D. W. Pang, Q. Q. Wang*,  “Immunofluorescence detection with quantum dot bioconjugates for hepatoma in  vivo,” J. Biomed. Opt. 2007, 12, 014008.
4. X. F. Yu, L. D. Chen, Y. L.  Deng, K. Y. Li, Q. Q. Wang*, Y. Li, S. Xiao, L. Zhou, X. Luo, J. Liu, D. W.  Pang, “Fluorescence analysis with quantum dot probes for hepatoma under one- and  two-photon excitation,” J. Fluoresc. 2007, 17, 243-247.

 

2006
3. K. Y. Li, Y. Lu Y, L. Zhou, L. B. Wang, “The affect of pulse light  source on near-infrared biomedical imaging,” IEEE ICMA 2006: Proceeding of the  2006 IEEE International Conference on Mechatronics and Automation, 2006, 1-3,  1377-1381.
2. L. B. Wang, L. Zhou, Y. Lu, K. Y. Li, “Pressure induced  near-infrared dynamic imaging of tissue in vivo,” IEEE ICMA 2006: Proceeding of  the 2006 IEEE International Conference on Mechatronics and Automation, 2006,  1-3, 1382-1386.

 

2004
1. L. Zhou, X. D. Yang, K. Y. Li, “Digitization and DICOM  standardization of X-ray image signal,” Wuhan University Journal of Natural  Sciences, 2004, 9(4), 463-467. 

关闭信息】  【打印信息
Baidu
sogou