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钱立华
发布时间:2020-05-16

个人信息

名:钱立华

称:教授,博士生导师

电子邮箱:lhqian@hust.edu.cn

办公地址:科技楼南416

个人简介

华中科技大学物理学院教授。1998年本科毕业于东北大学,2005年在中国科学院金属研究所获得博士学位。2005-2008年在日本东北大学材料研究所从事博士后研究,2008-2011年在在美国内华达大学从事博士后研究。2011年回华中科技大学物理学院工作,主要从事低维材料的电子态调控等相关研究。所指导的研究生中,有5人次获得国家奖学金。目前已经主持国家自然科学基金面上项目2项,国家自然科学基金重大研究计划培育项目1项。担任Journal of Advanced Optics and Photonics国际期刊的编委。迄今为止,已经在ACS Nano, Nano Research, Nanoscale, Apply Physics Letters等国际权威学术刊物上发表论文40余篇,引用超过100次的论文5篇,总引用次数超过2000次。

主要研究方向:低维材料的电子态调控

1.二维材料的界面电子行为与光学性能

2.多孔金属材料的功能化

代表性研究论文

1.J.Zheng, W.M. Yang, J.Y. Wang,J.F.Zhu,L.H.Qian,Z.L.Yang, An ultranarrow SPR linewidth in the UV region for plasmonic sensing, Nanoscale, 11, 4061-4066, 2019.

2.G.O.Barasa,T.S.Yu,X.L.Lu, X.J.Zhou, H.L.Wang, L.H.Qian,Y.Yu,L.Liu,P.X.Lei,Electrochemical training of nanoporous Cu-In catalysts for efficient CO2-to-CO conversion and high durability, Electrochimica ACTA, 295, 584-590, 2019.

3.S.X. Shen, M. Gao, R.C. Ban, H.Y. Chen, X.J. Wang, L.H. Qian, J. Li, Z.L. Yang, Spatially-controllable hot spots for plasmon-enhanced second-harmonic generation in AgNP-ZnO nanocavity arrays, Nanomaterials, 8, 1012, 2018.

4.K.Wu, Z. Li, J. B. Tang, X. L. Lv, H. L. Wang, R.C. Luo, P. Liu, L. H. Qian, S. P. Zhang, S. L. Yuan,Controllable defects implantation in MoS2grown by chemical vapor deposition for photoluminescence enhancement, Nano Research, 11,4123-4132, 2018.

5.W. P. Yang, K. Wu, W. M. Yang, H. L. Wang, X.L. Lv, XL, L. H. Qian, T. S. Yu, Z. Q. Li, X. J. Zhou, G. O. Barasa, S. L. Yuan, Y. T. Jiang, Z. L. Yang, Nanoporous Au-Ag shell with fast kinetics: integrating chemical and plasmonic catalysis,Nanotechnology,28, 425704, 2017.

6.G. S. Wang, W. H. Jiao, L. Z. Yi, Y. J. Zhang, K. Wu, C. Zhang, X. L. Lv, L. H. Qian, J. F. Li, S. L. Yuan, L. Chen, Topography-specific isotropic tunneling in nanoparticle monolayer with sub-nm scale crevices, Nanotechnology, 27, 405701, 2016.

7.C. Zhang, J. Xiao, X. L. Lv, L. H. Qian, S. L. Yuan, S. Wang, P. X. Lei,Hierarchically porous Co3O4/C nanowire arrays derived from a metal-organic framework for high performance supercapacitors and the oxygen evolution reaction, Journal of Materials Chemistry A, 4, 16516-16523, 2016.

8.C. Zhang, J. Xiao, L. H. Qian, S. L. Yuan, S. Wang, P. X. Lei, Planar integration of flexible micro-supercapacitors with ultrafast charge and discharge based on interdigital nanoporous gold electrodes on a chip, Journal of Materials Chemistry A,4, 9502-9510, 2016.

9.L. H. Qian, L. Z. Yi, G. S. Wang, C. Zhang, S. L. Yuan, Survey of plasmonic gaps tuned at sub-nanometer scale in self-assembled arrays, Frontiers of Physics, 11, 115204, 2016.

10.L. Z. Yi, W. H. Jiao, C. M. Zhu, K. Wu, C. Zhang, L. H. Qian, S. Wang, Y. T. Jiang, S. L. Yuan, Ultrasensitive strain gauge with tunable temperature coefficient of resistivity, Nano Research, 9, 1346-1357, 2016.

11.S. Chen, L. Y. Meng, H. Y. Shan, J. F. Li, L. H. Qian, C. T. Williams, Z. L. Yang, Z. Q. Tian, How To Light Special Hot Spots in Multiparticle-Film Configurations, ACSNano, 10, 581-587, 2016.

12.C. Zhang, B. Huang, L. H. Qian, S. L. Yuan, S. Wang, R. Chen, Electrochemical Biosensor Based on Nanoporous Au/CoO Core-Shell Material with Synergistic Catalysis, Chem. Phys. Chem., 17, 98-104, 2016

13.L. Z. Yi, W. H. Jiao, K. Wu, L.H. Qian, X. X. Yu, Q. Xia, K. M. Mao, S. L. Yuan, S. Wang, Nanoparticle monolayer-based flexible strain gauge with ultrafast dynamic response for acoustic vibration detection, Nano Research, 8, 2978-2987, 2015.

14.B. Huang, K. Gao, X. Liu, L. H. Qian, B. Shan, R. Chen, Tuning the morphology and composition of ultrathin cobalt oxide films via atomic layer deposition, RSC Advances, 5, 71816-71823, 2015.

15.J. W. Chen, K. Wang, K. Wu, L. H. Qian, H. Long, B. Wang, P. X. Lu, Optimization of metal-enhanced fluorescence by different concentrations of gold-silica core-shell nanoparticles, Optics Communications, 349, 180-184, 2015.

16.C. Zhang, L. H. Qian, K. Zhang, S. L. Yuan, J. W. Xiao, S. Wang, Hierarchical porous Ni/NiO core-shells with superior conductivity for electrochemical pseudocapacitors and glucose sensors, Journal of Materials Chemistry A, 3, 10519-10525, 2015.

17.Y. X. Jin, J. B. Xi, Z. Y. Zhang, J. W. Xiao, F. Xiao, L. H. Qian, S. Wang, An ultra-low Pd loading nanocatalyst with efficient catalytic activity, Nanoscale, 7, 5510-5515, 2015.

18.K. Wu, J. P. Zhang, S. S. Fan, J. Li, C. Zhang, K. K. Qiao, L. H. Qian, J. B. Han, J. Tang, S. Wang, Plasmon-enhanced fluorescence of PbS quantum dots for remote near-infrared imaging, Chemical Communications, 1, 141-144, 2015.

19.W. H. Jiao, L. Z. Yi, C. Zhang, K. Wu, J. Li, L. H. Qian, S. Wang, Y. T. Jiang, B. Das, S. L. Yuan, Electrical conduction of nanoparticle monolayer for accurate tracking of mechanical stimulus in finger touch sensing, Nanoscale, 6, 13809-13816, 2014.

20.M. Fu, L. H. Qian, H. Long, K. Wang, P. X. Lu, Y. P. Rakovich, F. Hetsch, A .S. Susha, A. L. Rogach, Tunable plasmon modes in single silver nanowire optical antennas characterized by far-field microscope polarization spectroscopy, Nanoscale, 6, 9192-9197, 2014.

21.S. Xiao, F. Xiao, Y. Hu, SL. Yuan, S. Wang, L. H. Qian and Y. Q. Liu, Hierarchicalnanoporous gold-platinum with heterogeneous interfaces for methanol electrooxidation, Scientific Reports, 4, 4370, 2014.

22.C. Zhang, J. Li, S. S. Yang, W. H. Jiao, S. Xiao, M. Zou, S. L. Yuan, F. Xiao, S. Wang and L. H. Qian, Closely packed nanoparticle monolayer as strain gauge fabricated by convective assembly at the confined angle, Nano Research, 7, 824-834, 2014.

23.Z. Y. Zhang, F. Xiao, L. H. Qian, J. W. Xiao, S. Wang and Y. Q. Liu, Facile synthesis of 3D MnO2–graphene and carbon nanotube–graphene composite networks for high-performance, flexible, all-solid-state asymmetric supercapacitors, Adv. Energy. Mater. 4, 1400064, 2014.

24.L. H. Qian, S. J. Zhai, Y. T. Jiang, B. Das, Nanoscale convection assisted self-assembly of nanoparticle monolayer, Journal of Materials Chemistry, 22, 4932-4937, 2012.

25.J. Chen, B. Shen, G. W. Qin, X. W. Hu, L. H. Qian, Z. W. Wang, S. Li, Y. P. Ren, L. Zuo, Fabrication of large-Area, high-enhancement SERS substrates with tunable interparticle spacing and application in identifying microorganism at the single cell level, Journal of Physical Chemistry C, 116, 3320-3328,2012

26.L. H. Qian, R. Mookherjee, Convective assembly of linear gold nanoparticle arrays at the micron scale for surface enhanced Raman scattering, Nano Research, 4, 1117-1128, 2011.

27.X. Y. Lang, L. H. Qian, P. F. Guan, J. Zi, M. W. Chen, Localized surface plasmon resonance of nanoporous gold, Applied Physics Letters, 98, 093701, 2011.

28.L. H. Qian, B. Shen, G. W. Qin, B. Das, Widely tuning optical properties of nanoporous gold-titania core-shells, Journal of Chemical Physics, 134, 014707, 2011.

29.L. H. Qian, B. Das, Y. Li, Z. L. Yang, Giant Raman enhancement on nanoporous gold film by conjugating with nanoparticles for single-molecule detection, Journal of Materials Chemistry, 20, 6891-6895, 2010.

30.L. H. Qian, W. Shen, B. Shen, G. W. Qin, B. Das, Nanoporous gold-alumina core-shell films with tunable optical properties, Nanotechnology, 21, 305705, 2010.

31.L. H. Qian, W. Shen, B. Das, B. Shen, G. W. Qin, Alumina coating of ultrafine nanoporous gold at room temperature and their optical properties, Chemical Physics Letters, 479, 259-263, 2009.

32.H. T. Fang, X. Sun, L. H. Qian, D. W. Wang, F. Li, Y. Chu, F. P. Wang, H. M. Cheng, Synthesis of tin (II or IV) oxide coated multiwall carbon nanotubes with controlled morphology, Journal of Physical Chemistry C, 112, 5790-5794, 2008.

33.T. Fujita, L. H. Qian, K. Inoke, J. Erlebacher, M. W. Chen, Three-dimensional morphology of nanoporous gold, Applied Physics Letters, 92, 251902, 2008.

34.L. H. Qian, Y. Ding, T. Fujita, M. W. Chen, Synthesis and optical properties of three-dimensional porous core-shell nanoarchitectures, Langmuir, 24, 4226-4229, 2008.

35.L. H. Qian, A. Inoue, M. W. Chen, Large surface enhanced Raman scattering enhancements from fracture surfaces of nanoporous gold, Applied Physics Letters, 92, 93113, 2008.

36.L. H. Qian, M. W. Chen, Ultrafine nanoporous gold by low-temperature dealloying and kinetics of nanopore formation, Applied Physics Letters, 91, 83105, 2007.

37.L. H. Qian, X. Q. Yan, T. Fujita, A. Inoue, M. W. Chen, Surface enhanced Raman scattering of nanoporous gold: smaller pore sizes stronger enhancements, Applied Physics Letters, 90, 153120, 2007.

38.L. H. Qian, K. Wang, H. T. Fang, Y. Li, X. L. Ma, Au nanoparticles enhance CO oxidation onto SnO2nanobelt, Materials Chemistry and Physics, 103,132-136, 2007.

39.L. H. Qian, K. Wang, Y. Li, H. T. Fang, Q. H. Lu, X. L. Ma, CO sensor based on Au-decorated SnO2nanobelt, Materials Chemistry and Physics, 100, 82-84, 2006.

40.Y. Li, L. H. Qian, W. F. Li, C. N. Yang, X. L. Ma, Growth of segmented ZnS nanocones induced by regular occurrence of twins structure, Applied Physics Letters, 87, 183107, 2005.

41.L. H. Qian, Q. H. Lu, W. J. Kong, K. Lu, Electrical resistivity of fully-relaxed grain boundaries in nanocrystalline Cu, Scripta Materialia, 50, 1407-1411, 2004.

42.L. Lu, Y. F. Shen, X. H. Chen, L. H. Qian, K. Lu, Ultrahigh strength and high electrical conductivity in copper, Science, 304, 422-426, 2004.

43.J. Chen, W. Wang, L. H. Qian, K. Lu, Critical shear stress for onset of plasticity in a nanocrystalline Cu determined by using nanoindentation, Scripta Materialia, 49, 645-650, 2003.

44.L. H. Qian, S. C. Wang, Y. H. Zhao, K. Lu, Microstrain effect on thermal properties of nanocrystalline Cu, Acta Materialia, 50, 3425-3434, 2002.

讲授课程:固体物理(二)、材料物理学、大学物理(一)、近代物理实验(二)、物理实验(二)

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