侯建国


HJG.jpg Name: J.G. HOU(HOU Jianguo,侯建国)
 Address:Hefei National Research Center for Physical Sciences at the Microscale,

University of Science and Technology of China, 230026 Hefei, P. R. China
 Fax:86-551-63606266
 E-mail:jghou@ustc.edu.cn




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 CURRENT POSITION
  Professor and Group Leader


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 EDUCATION AND RESEARCH EXPERIENCE
  1983B.S., University of Science and Technology of China (USTC)
  1986M.S., USTC
  1989Ph.D. in Condensed Matter Physics, Center for Structure and Compositional Analysis, USTC
  1988Visiting Scientist, Laboratory of Electron Microscopy, Institute of Crystallography, USSR Academy of Sciences
  1989-1991Post-Doctor in FuJian Institute of Research on the Structure of Matter, CAS
  1991-1993Post-doctor, Material Science Division, Lawrence Berkeley Laboratory and Department of Physics, University of California at Berkeley, USA
  1993-1995Research Associate, Department of Chemistry, Oregon State University, USA
  1995-Professor, USTC
  1999-2008Professor, Vice President, USTC
  2008-2015Professor, President, USTC
  2015-Professor and Group Leader, Hefei National Research Center for Physical Sciences at the Microscale, USTC


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 AWARDS and HONORS
  1995 National Distinguishing Young Scholar Research Foundation Award
  1995 President Research Foundation Award, CAS
  1997 Natural Science Award (first-class), CAS
  1999 Distinguishing Young Scholar in Physics Award, “QiuShi” Fundation (Hong Kong)
  2001 Distinguishing Research Award, China Association for Instrumental Analysis (CAIA)
  2002 Achievement in Asia Award (AAA) of the Overseas Chinese Physics Association (OCPA)
  2003 Academician of CAS
  2003 Natural Science Award (first-class) of Anhui Province
  2004 Fellow of The Third World Academy of Science (TWAS)
  2005 Excellent Post-Doctor Award in China
  2005 National Natural Science Award (second-class) of China
  2007 The Holeung Ho Lee Advancement Prize
  2008 TAN KAH KEE Science Award (Chemistry)
  2013 Distinguishing Research Award, CAIA
  2013 Major science and Technology Achievement Award of Anhui Province
  2014 Outstanding Science and Technology Achievement Prize, CAS


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 ACADEMIC ACTIVITIES
  2003 Member of Council of Chinese Materials Research Society (CMRS)
  2002 Member of Executive Council of Chinese Physical Society (CPS)
  2003 Member of Peer Review Colleges of Engineering and Physical Sciences Research Council (EPSRC), UK
  2004 President, Chinese Vacuum Society (CVS)
  2004 Member of China National Accreditation Board for Laboratories (CNAL)
  2006 Member of China Association for Science and Technology
  2007 Titular Member of the IUPAC Physical and Biophysical Chemistry Division Committee
  2007 Member of International Union for Vacuum Science, Technique and Applications (IUVSTA)
  2008 Member of Council of TAN KAH KEE Science Award Foundation
  2009 Kavli Prize Committee in Nanoscience
  2012 Deputy Director of the Standing Committee of Division of Chemistry of CAS


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 EDITORIAL POSITIONS
  2001 Member of Editorial Board of Chinese Journal of Chemical Physics
  2002 Member of Editorial Board of Journal of Nanoscience and Nanotechnology, American Scientific Pub
  2002 Managing Editors of International Journal of Nanoscience, World Scientific Pub
  2003 Managing Editors of Science in China, Chinese Academy of Sciences
  2003 Member of Editorial Board of International Journal of Nanotechnology, Inderscience Pub
  2007 Member of Editorial Board of Progress in Surface Science, Elsevier
  2008 Member of Editorial Board of Journal of Chemical Physics, American Institute of Physics
  2010 Member of Editorial Advisory Board of Surface Science, Elsevier
  2011 Member of Editorial Advisory Board of ACS Nano, American Chemical Society
  2012 Associate Editor of Nano Letters, American Chemical Society


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 RESEARCH INTERESTS
  1.Synthesis and characterization of nanomaterials and nanostructures
  2.Physical and chemical properties of single molecules and their assemblies
  3.Study of nanomaterials and nanostructures with scanning probes (STM, AFM)
  4.Quantum phenomena in confined structures like nano-particles and single molecules


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 SLECTED PUBLICATIONS
  1.S. J. Tan, H. Feng, Q. J. Zheng, X. F. Cui, J. Zhao, Y. Luo, J. L. Yang, B. Wang, and J. G. Hou, "Interfacial hydrogen-bonding dynamics in surface-facilitated dehydrogenation of water on TiO2(110)", Journal of the American Chemical Society 142, 826 (2020).
  2.Y. Luo, G. Chen, Y. Zhang, L. Zhang, Y. J. Yu, F. F. Kong, X. J. Tian, Y. Zhang, C. X. Shan, Y. Luo, J. L. Yang, V. Sandoghdar, Z. C. Dong, and J. G. Hou, "Electrically driven single-photon superradiance from molecular chains in a plasmonic nanocavity", Physical Review Letters 122, 233901 (2019).
  3.J. L. Deng, B. Y. Xia, X. C. Ma, H. Q. Chen, H. Shan, X. F. Zhai, B. Li, A. D. Zhao, Y. Xu, W. H. Duan, S. C. Zhang, B. Wang, and J. G. Hou, "Epitaxial growth of ultraflat stanene with topological band inversion", Nature Materials 17, 1081 (2018).
  4.D. L. Wang, X. D. Fan, X. G. Li, S. Y. Dai, L. M. Wei, W. Qin, F. Wu, H. F. Zhang, Z. M. Qi, C. G. Zeng, Z. Y. Zhang, and J. G. Hou, "Quantum control of graphene plasmon excitation and propagation at Heaviside potential steps", Nano Letters 18, 1373 (2018).
  5.L. Zhang, Y. J. Yu, L. G. Chen, Y. Luo, B. Yang, F. F. Kong, G. Chen, Y. Zhang, Q. Zhang, Y. Luo, J. –L. Yang, Z. C. Dong, and J. G. Hou, “Electrically driven single-photon emission from an isolated single molecule”, Nature Communications 8, 580 (2017).
  6.Y. Zhang, Q. S. Meng, L. Zhang, Y. Luo, Y. J. Yu, B. Yang, Y. Zhang, R. Esteban, J. Aizpurua, Y. Luo, J. L. Yang, and Z. C. Dong, and J. G. Hou, “Sub-nanometre control of the coherent interaction between a single molecule and a plasmonic nanocavity”, Nature Communications 8, 15225 (2017).
  7.G. H. Cheng, W. Qin, M. H. Lin, L. M. Wei, X. D. Fan, H. Y. Zhang, S. Gwo, C. G. Zeng, J. G. Hou, and Z. Y. Zhang, "Substantially enhancing quantum coherence of electrons in graphene via electron-plasmon coupling", Physical Review Letters 119, 156803 (2017).
  8.Y. Zhang, Y. Luo, Y. Zhang, Y. J. Yu, Y. M. Kuang, L. Zhang, Q. S. Meng, Y. Luo, J. L. Yang, Z. C. Dong, and J. G. Hou, “Visualizing coherent intermolecular dipole-dipole coupling in real space”, Nature 531, 623 (2016).
  9.H. J. Du, X. Sun, X. G. Liu, X. J. Wu, J. F. Wang, M. Y. Tian, A. D. Zhao, Y. Luo, J. L. Yang, B. Wang, and J. G. Hou, “Surface Landau levels and spin states in bismuth (111) ultrathin films”, Nature Communications 7, 10814 (2016).
  10.S. Jiang, Y. Zhang, R. Zhang, C. R. Hu, M. H. Liao, Y. Luo, J. L Yang, Z. C. Dong, and J. G. Hou, “Distinguishing adjacent molecules on a surface using plasmon-enhanced Raman scattering”, Nature Nanotechnology 10, 865 (2015).
  11.R. He, Y. C. Wang, X. Y. Wang, Z. T. Wang, G. Liu, W. Zhou, L. P. Wen, Q. X. Li, X. P. Wang, X. Y. Chen, J. Zeng, and J. G. Hou, "Facile synthesis of pentacle gold-copper alloy nanocrystals and their plasmonic and catalytic properties", Nature Communications 5, 4327 (2014).
  12.C. X. Ma, H. F. Sun, Y. L Zhao, B. Li, Q. X. Li, A. D. Zhao, X. P. Wang, Y. Luo, J. L Yang, B. Wang, and J. G. Hou, “Evidence of van Hove singularities in ordered grain boundaries of grapheme”, Physical Review Letters 112, 226802 (2014).
  13.H. Y. Ding, N. Pan, C. Ma, Y. K. Wu, J. W. Li, H. B. Cai, K. Zhang, G. H. Zhang, W. Z. Ren, J. Q. Li, Y. Luo, X. P. Wang, and J. G. Hou, "Maximizing integrated optical and electrical properties of a single ZnO nanowire through native interfacial doping", Advanced Materials 26, 3035 (2014).
  14.W. Sang, T. T. Zheng, Y. C. Wang, X. Li, X. Zhao, J. Zeng, and J. G. Hou, "One-step synthesis of hybrid nanocrystals with rational tuning of the morphology" , Nano Letters 14, 6666 (2014).
  15.R. Zhang, Y. Zhang, Z. C. Dong, S. Jiang, C. Zhang, L. G. Chen, L. Zhang, Y. Liao, J. Aizpurua, Y. Luo, J. L. Yang, and J. G. Hou, “Chemical mapping of a single molecule by plasmon-enhanced Raman scattering”, Nature 498, 82 (2013).
  16.Y. Wang, H. J. Sun, S. J. Tan, H. Feng, Z. W. Cheng, J. Zhao, A. D. Zhao, B. Wang, Y. Luo, J. L. Yang, and J. G. Hou, “Role of point defects on the reactivity of reconstructed anatase titanium dioxide (001) surface”, Nature Communications 4, 2214 (2013).
  17.L. B. Wang, Y. C. Wang, R. He, A. Zhuang, X. P. Wang, J. Zeng, and J. G. Hou, "A new nanobiocatalytic system based on allosteric effect with dramatically enhanced enzymatic performance", Journal of the American Chemical Society 135, 1272 (2013).
  18.S. E. Zhu, Y. M. Kuang, F. Geng, J. Z. Zhu, C. Z. Wang, Y. J. Yu, Y. Luo, Y. Xiao, K. Q. Liu, Q. S. Meng, L. Zhang, S. Jiang, Y. Zhang, G. W. Wang, Z. C. Dong, and J. G. Hou, "Self-decoupled porphyrin with a tripodal anchor for molecular-scale electroluminescence", Journal of the American Chemical Society 135, 15794 (2013).
  19.K. Zhang, Q. Fu, N. Pan, X. X. Yu, J. L. Liu, Y. Luo, X. P. Wang, J. L. Yang, and J. G. Hou, “Direct writing of electronic devices on graphene oxide by catalytic scanning probe lithography”, Nature Communications 3, 1194 (2012).
  20.S. J. Tan, H. Feng, Y. F. Ji, Y. Wang, J. Zhao, A. D. Zhao, B. Wang, Y. Luo, J. L. Yang, and J. G. Hou, “Observation of photocatalytic dissociation of water on terminal Ti sites of TiO2(110)-1×1 surface”, Journal of the American Chemical Society 134, 9978 (2012).
  21.W. H. Wang, Y. F. Ji, H. Zhang, A. D. Zhao, B. Wang, J. L. Yang, and J. G. Hou, "Negative differential resistance in a hybrid silicon-molecular system: resonance between the intrinsic surface-states and the molecular orbital", ACS Nano 6, 7066 (2012).
  22.H. Zhang, J. H. Choi, Y. Xu, X. X. Wang, X. F. Zhai, B. Wang, C. G. Zeng, J. H. Cho, Z. Y. Zhang, and J. G. Hou, "Atomic structure, energetics, and dynamics of topological solitons in indium chains on Si(111) surfaces", Physical Review Letters 106, 026801 (2011).
  23.S. J. Tan, Y. F. Ji, Y. Zhao, A. D. Zhao, B. Wang, J. L. Yang, and J. G. Hou, “Molecular oxygen adsorption behaviors on the rutile TiO2(110)-1×1 surface: an in situ study with low-temperature scanning tunneling microscopy”, Journal of the American Chemical Society 133, 2002 (2011).
  24.X. X. Yu, H. B. Cai, W. H. Zhang, X. J. Li, N. Pan, Y. Luo, X. P. Wang, and J. G. Hou, "Tuning chemical enhancement of SERS by controlling the chemical reduction of graphene oxide nanosheets", ACS Nano 5, 952 (2011).
  25.Z. C. Li, P. Wu, C. X. Wang, X. D. Fan, W. H. Zhang, X. F. Zhai, C. G. Zeng, Z. Y. Li, J. L. Yang, and J. G. Hou, "Low-temperature growth of graphene by chemical vapor deposition using solid and liquid carbon sources", ACS Nano 5, 3385 (2011).
  26.Z. C. Dong, X. L. Zhang, H. Y. Gao, Y. Luo, C. Zhang, L. G. Chen, R. Zhang, X. Tao, Y. Zhang, J. L. Yang, and J. G. Hou, “Generation of molecular hot electroluminescence by resonant nanocavity plasmons”, Nature Photonics 4, 50 (2010).
  27.J. Zeng, J. L. Huang, C. Liu, C. H. Wu, Y. Lin, X. P. Wang, S. Y. Zhang, J. G. Hou, and Y. N. Xia, "Gold-based hybrid nanocrystals through heterogeneous nucleation and growth", Advanced Materials 22, 1936 (2010).
  28.S. Pan, A. D. Zhao, B. Wang, J. L. Yang, and J. G. Hou, "Controlling electronic states and transport properties at the level of single molecules", Advanced Materials 22, 1967 (2010).
  29.S. L. Hu, J. Zhao, Y. D. Jin, J. L. Yang, H. Petek, and J. G. Hou, "Nearly free electron superatom states of carbon and boron nitride nanotubes", Nano Letters 10, 4830 (2010).
  30.Y. Lin, K. Zhang, W. F. Chen, Y. D. Liu, Z. G. Geng, J. Zeng, N. Pan, L. Y. Yan, X. P. Wang, and J. G. Hou, "Dramatically enhanced photoresponse of reduced graphene oxide with linker-free anchored CdSe nanoparticles", ACS Nano 4, 3033 (2010).
  31.Z. Y. Li, B. Li, J. L. Yang, and J. G. Hou, "Single-molecule chemistry of metal phthalocyanine on noble metal surfaces", Accounts of Chemical Research 43, 954 (2010).
  32.S. Pan, Q. Fu, T. Huang, A. D. Zhao, B. Wang, Y. Luo, J. L. Yang, and J. G. Hou, “Design and control of electron transport properties of single molecules”, Proceedings of the National Academy of Sciences of the United States of America 106, 15259 (2009).
  33.W. Zhu, Q. W. Shi, X. R. Wang, J. Chen, J. L. Yang, and J. G. Hou, "Shape of disorder-broadened Landau subbands in graphene", Physical Review Letters 102, 056803 (2009).
  34.J. Zhang, B. Li, X. F. Cui, B. Wang, J. L. Yang, and J. G. Hou, “Spontaneous chiral resolution in supramolecular assembly of 2,4,6-tris(2-pyridyl)-1,3,5-triazine on Au(111)” Journal of the American Chemical Society 131, 5885 (2009).
  35.Y. Zhao, Z. Wang, X. F. Cui, T. Huang, B. Wang, Y. Luo, J. L. Yang, and J. G. Hou, “What are the adsorption sites for CO on the reduced TiO2(110)-1×1 surface?”, Journal of the American Chemical Society 131, 7958 (2009).
  36.Z. Y. Li, W. H. Zhang, Y. Luo, J. L. Yang, and J. G. Hou, "How graphene is cut upon oxidation?", Journal of the American Chemical Society 131, 6320 (2009).
  37.E. J. Kan, Z. Y. Li, J. L. Yang, and J. G. Hou, "Half-metallicity in edge-modified zigzag graphene nanoribbons", Journal of the American Chemical Society 130, 4224 (2008).
  38.J. Zeng, C. Liu, J. L. Huang, X. P. Wang, S. Y. Zhang, G. P. Li, and J. G. Hou, "UV-light induced fabrication of CdCl2 nanotubes through CdSe/Te nanocrystals based on dimension and configuration control", Nano Letters 8, 1318 (2008).
  39.L. Chen, Z. P. Hu, A. D. Zhao, B. Wang, Y. Luo, J. L. Yang, and J. G. Hou, “Mechanism for negative differential resistance in molecular electronic devices: local orbital symmetry matching”, Physical Review Letters 99, 146803 (2007).
  40.T. Huang, Z. P. Hu, A. D. Zhao, H. Q. Wang, B. Wang, J. L. Yang, and J. G. Hou, “Quasi chiral phase separation in a two-dimensional orientationally disordered system: 6-nitrospiropyran on Au(111)”, Journal of the American Chemical Society 129, 3857 (2007).
  41.J. Zeng, J. L. Huang, W. Lu, X. P. Wang, B. Wang, S. Y. Zhang, and J. G. Hou, "Necklace-like noble-metal hollow nanoparticle chains: synthesis and tunable optical properties", Advanced Materials 19, 2172 (2007).
  42.H. J. Xiang, J. L. Yang, J. G. Hou, and Q. S. Zhu, "Linear-scaling density matrix perturbation treatment of electric fields in solids", Physical Review Letters 97, 266402 (2006).
  43.H. J. Xiang, J. L. Yang, J. G. Hou, and Q. S. Zhu, "One-dimensional transition metal-benzene sandwich polymers: possible ideal conductors for spin transport", Journal of the American Chemical Society 128, 2310 (2006).
  44.A. D. Zhao, Q. X. Li, L. Chen, H. J. Xiang, W. H. Wang, S. Pan, B. Wang, X. D. Xiao, J. L. Yang, J. G. Hou, and Q. S. Zhu, “Controlling the Kondo effect of an adsorbed magnetic ion through its chemical bonding”, Science 309, 1542 (2005).
  45.J. Zhao, C. G. Zeng, X. Cheng, K. D. Wang, G. W. Wang, J. L. Yang, J. G. Hou, and Q. S. Zhu, “Single C59N molecule as a molecular rectifier”, Physical Review Letters 95, 045502 (2005).
  46.Z. Y. Li, J. L. Yang, J. G. Hou, and Q. S. Zhu, "Is mayenite without clathrated oxygen an inorganic electride?", Angewandte Chemie-International Edition 43, 6479 (2004).
  47.K. D. Wang, J. Zhao, S. F. Yang, L. Chen, Q. X. Li, B. Wang, S. H. Yang, J. L. Yang, J. G. Hou, and Q. S. Zhu, “Unveiling metal-cage hybrid states in a single endohedral metallofullerene”, Physical Review Letters 91, 185504 (2003).
  48.J. G. Hou, B. Wang, J. L. Yang, K. D. Wang, W. Lu, Z. Y. Li, H. Q. Wang, D. M. Chen, and Q. S. Zhu,“Disorder and suppression of quantum confinement effects in Pd nanoparticles”, Physical Review Letters 90, 246803 (2003).
  49.L. F. Yuan, J. L. Yang, H. Q. Wang, C. G. Zeng, Q. X. Li, B. Wang, J. G. Hou, Q. S. Zhu and D. M. Chen, “Low-temperature orientationally ordered structures of two-dimensional C60”, Journal of the American Chemical Society 125, 169 (2003).
  50.Z. Y. Li, J. L. Yang, J. G. Hou, and Q. S. Zhu, "Inorganic electride: Theoretical study on structural and electronic properties", Journal of the American Chemical Society 125, 6050 (2003).
  51.J. G. Hou, Yang Jinlong, Wang Haiqian, Li Qunxiang, Zeng Changgan, Yuan Lanfeng, Wang Bing, D. M. Chen, and Zhu Qingshi, “Topology of two-dimensional C60 domains”, Nature 409, 304 (2001).
  52.J. G. Hou, B. Wang, J. L. Yang, X. R. Wang, H. Q. Wang, Q. S. Zhu, X. D. Xiao, “Nonclassical behavior in the capacitance of a nanojunction”, Physical Review Letters 86, 5321 (2001).
  53.J. G. Hou, Yang Jinlong, Wang Haiqian, Li Qunxiang, Zeng Changgan, Lin Hai, Bing Wang, D. M. Chen, and Zhu Qingshi, “Identifying molecular orientation of individual C60 on a Si(111)-(7×7) surface”, Physical Review Letters 83, 3001 (1999).
  54.J. G. Hou, X. Li, Y. Q. Li, and H. Q. Wang, "Synthesis and characterization of metal-C60 nanostructured films", Advanced Materials 11, 1124 (1999).
  55.X. D. Xiang, J. G. Hou, V. H. Crespi, A. Zettl, and M. L. Cohen, "3-dimensional fluctuation conductivity in superconducting single-crystal K3C60 and Rb3C60", Nature 361, 54 (1993).
  56.X. D. Xiang, J. G. Hou, G. Briceno, W. A. Vareka, R. Mostovoy, A. Zettl, V. H. Crespi, and M. L. Cohen, "Synthesis and eletronic transport of single-crystal K3C60", Science 256, 1190 (1992).


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