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基本信息 The basic information
姓名: 齐卫宏

学院: 材料学院


学历: 博士研究生毕业

学位: 工学博士


职称: 教授

职务:


学科: 材料科学与工程





综合介绍 General Introduction
教授，博士生导师，教育部新世纪优秀人才（2008），湖南省****基金获得者（2013），中南大学“升华****“****（2011-2016），爱思唯尔2020中国高被引****，入选全球前2%顶尖科学家榜单。在Accounts of Chemical Research、Advanced Functional Materials、Small、Tribology International等刊物上发表论文138篇，论文被引3440次，单篇最高被引348次，H指数为30。


招生信息：本课题组隶属于刘维民院士团队，现招收二维材料制备与应用、机器学习、第一性原理计算、分子动力学等方向的硕士生、博士生、博士后。邮件联系方式：



科学研究 Scientific Research
目前感兴趣的研究方向:
1）超润滑及纳米摩擦学
2）二维材料的制备和应用
3）材料基因工程（机器学习、第一原理、分子动力学）





工作经历 Work Experience
2019-现 在 西北工业大学
2001-2019 中南大学

2009-2010香港城市大学，研究员

2007-2010中南大学，博士后




教育经历 Education Experience
2001-2004，中南大学，博士，材料物理与化学
1998-2001，湖南大学，硕士，理论物理
1994-1998，湖南大学，本科，应用物理学



荣誉获奖 Awards Information
2021年 爱思唯尔2020中国高被引****
2021年 入选斯坦福大学发布的“全球前2%顶尖科学家榜单”之
“终身科学影响力排行榜”（Career）和“2019年度科学影响力排行榜”（Singleyr）
（https://data.mendeley.com/datasets/btchxktzyw/2）

2020年第四届中国有色金属A级优秀图书奖
2019年湖南省自然科学二等奖（排第一）
2018年湖南省优秀硕士论文指导老师

2017年中南大学优秀硕士论文指导老师
2016年中南大学优秀硕士论文指导老师
2016年中国电信教育奖
2015年中南大学优秀硕士论文指导老师
2015年中南大学本科教学质量优秀奖
2014年湖南省优秀硕士论文指导老师
2013年湖南省优秀硕士论文指导老师
2013年中南大学优秀硕士论文指导老师
2013年陈新民教育奖
2013年湖南省****基金
2012年中南大学优秀硕士论文指导老师
2011年中南大学升华********
2009年中南大学首批育英计划青年****
2008年教育部新世纪优秀人才
2008年黄培云教育奖
2008年湖南省青年骨干教师
2008年湖南省优秀自然科学论文一等奖（排第一）
2006年湖南省优秀博士论文



学术成果 Academic Achievements
[106]. Li, Y. J.; Cao, Y. W.; Duan, R.; Qi, W. H.*; Zhang, Y. Y.; Xie, H. P.; Tong, Y. G.; Gang, X. H.; Yin K.; Zhang, G. F.; Wei, H. G.; He, J.; Facial Surface Laser Modification on Ni Foams for Efficient Water Oxidation Electrocatalysis. ChemElectroChem2021.
[105]. Ru, G. L.;Qi, W. H.*; Wei Y. R.;Tang, K. W.; Xue, T. W.; Superlubricity in bilayer isomeric tellurene and graphene/tellurene van der Waals heterostructures. Tribology International2021, 159, 106974
[104]. Du, C. -F; Yang, L.; Tang, K. W.; Fang, W.; Zhao, X. Y.; Liang Q. H.; Liu, X. H.; Yu, H. *;Qi, W. H.*; Yan Q. Y.*;Ni nanoparticles/V4C3Tx MXene heterostructures for electrocatalytic nitrogen fixation.Materials Chemistry Frontiers2021,5 (5), 2338-2346
[103]. Lia L. Q.^#; Gao W.^#; Tang K. W.; Lei M.; Yao B.;Qi, W. H.*; Wen D.*;Structure Engineering of Ni2P by Mo Doping for Robust Electrocatalytic Water and Methanol Oxidation Reactions.Electrochimica Acta2021, 369, 137692.
[102].Zhou, X. F.;Qi, W. H.*; Li, Y. J.; Synthesis of Ru Decahedral Nanocages with a Face-Centered Cubic Structure by Templating with Pd Decahedra.Journal of Nanoscience and Nanotechnology2021, 21 (10), 5302-5306.
[101].Duan, R.; Li, Y. J.*; Gong, S.; Tong, Y.; Zhou, L.*;Qi, W. H.*; Hierarchical CoFe Oxyhydroxides Nanosheets and Co2P Nanoparticles Grown on Ni Foam for Overall Water Splitting.Electrochimica Acta2020, 136994.
[100].Xiao, S.; Wang, H.; Qin, Y. L.; Li, X.; Xin, H.; Wang, G.; Hu, L.; Wang, Y.; Li, Y.;Qi, W. H.; He J.;Enhanced Saturated Absorption and Reversal in the Nonlinear Refraction of MoS2/Black Phosphorus/MoS2 at 1550 nm.Physica B2020, 594, 412364.
[99]. Ru, G. L.;Qi, W. H.*; Tang, K. W.; Wei Y. R.; Xue, T. W.; Interlayer friction and superlubricity in bilayer graphene and MoS2/MoSe2 van der Waals heterostructures.Tribology International2020,151, 106483.
[98]. Tang, K. W. ;Qi, W. H.*; Moiré Pattern Tuned Electronic Structures of van der Waals Heterostructures.Advanced Functional Materials2020, 30, **.
[97]. Liu, Y. Y. ;Qi, W. H.*; Gong, S.;He, J.;Li, Z.; Li, Y. J.*;Optical Properties of ZnO/Black Phosphorus/ZnO Sandwich Structures.Physica B2020,579,411903.
[96].Zhou, X. F.;Qi, W. H.*; Yin, K.; Zhang, N.;Gong, S.; Li, Z.; Li, Y. J.*;Co(OH)2 Nanosheets Supported on Laser Ablated Cu Foam: An Efficient Oxygen Evolution Reaction Electrocatalyst.Frontier in Chemistry2020,7,900.
[95]. Li, Y. J.; Zhou, X. F.;Qi, W. H.*; Xie, H. P.; Yin, K.*; Tong, Y. G.; He, J.; Gong, S.; Li, Z.*,Ultrafast Fabrication of Cu Oxide Micro/Nano-structures via Laser Ablation to Promote Oxygen Evolution Reaction.Chemical Engineering Journal2020,383,123086.
[94]. Li, Y. J. ; Pei, W. ; He, J. T.; Liu, K. ;Qi, W. H.*; Gao, X. H.; Zhou, S.*; Xie, H. P.; Yin, K. ; Gao, Y. L. ; He, J. *; Zhao, J. J. ; Hu, J. H.; Chan, T. S. ; Li, Z.; Zhang, G. F. ; Liu, M.*;Hybrids of PtRu Nanoclusters and Black Phosphorus Nanosheets for Highly Efficient Alkaline Hydrogen Evolution Reaction.ACS Catalysis2019,9, 10870-10875
[93]. Wu, H. F.; Yin, K.;Qi, W. H.*;Zhou, X. F.; He, J. T.;Li,J. M.; Liu, Y. Y.;He, J.; Gong, S.; Li, Y. J.* ,Rapid Fabrication of Ni/NiO@ CoFe Layered Double Hydroxide Hierarchical Nanostructures via Femtosecond Laser Ablation and Electrodeposition for Efficient Overall Water Splitting.ChemSusChem2019,12, 1-8.
[92]. Li, Y. J.; Liao, C. G.; Tang, K. W.; Zhang, N.*;Qi, W. H.*; Xie, H. P.; He, J.*; Yin, K.; Gao, Y. L.; Wang, C. D., Cobalt Hydroxide-Black Phosphorus Nanosheets: A Superior Electrocatalyst for Electrochemical Oxygen Evolution.Electrochimica Acta2019, 297, 40-45.
[91]. Li, J. M.;Qi, W. H.*; Li, Y. J., Facial Synthesis of 1t Phase Mos2 Nanoflowers Via Anion Exchange Method for Efficient Hydrogen Evolution.Chemistryselect2019, 4, 2070-2074.
[90]. Zhao, H. G.;Qi, W. H.*; Zhou, X. F.; Wu, H. F.; Li, Y. J., Composition-Controlled Synthesis of Platinum and Palladium Nanoalloys as Highly Active Electrocatalysts for Methanol Oxidation.Chinese Journal of Catalysis 2018, 39, 342-349.
[89]. Wang, T. R.; Li, Y. J.;Qi, W. H.*, Matrix Effect on Order-Disorder Phase Transition of Fept Nanoparticles.Physica B2018, 545, 498-502.
[88]. Tang, K. W.; Wang, T. R.;Qi, W. H.*; Li, Y. J., Debye Temperature for Binary Alloys and Its Relationship with Cohesive Energy.Physica B2018, 531, 95-101.
[87]. Tang, K. W.;Qi, W. H.*; Li, Y. J.; Wang, T. R., Electronic Properties of Van Der Waals Heterostructure of Black Phosphorus and Mos2.Journal of Physical Chemistry C2018, 122, 7027-7032.
[86]. Tang, K. W.;Qi, W. H.*; Li, Y. J.; Wang, T. R., Tuning the Electronic Properties of Van Der Waals Heterostructures Composed of Black Phosphorus and Graphitic Sic.Physical Chemistry Chemical Physics 2018, 20, 29333-29340.
[85]. Peng, H. C.;Qi, W. H.*; Wu, H. F.; He, J. T.; Li, Y. J.; Xie, H. P., One-Pot Synthesis of Cupt Nanodendrites with Enhanced Activity Towards Methanol Oxidation Reaction.RSC Advances 2018, 8, 9293-9298.
[84]. Li, S. Q.;Qi, W. H.*; Xiong, S. Y.; Yu, D. Q., Thermal Conductivity of Single-Wall Mos2 Nanotubes.Applied Physics A 2018, 124, 218.
[83]. He, J. T.; Wang, T. R.;Qi, W. H.*; Li, Y. J., Controllable Synthesis of Marks Decahedral Pd Nanoparticles Via Etching.Journal of Nanoscience and Nanotechnology2018, 18, 8276-8281.
[82]. Zhao, H. Q.;Qi, W. H.*; Ji, W. H.; Wang, T. R.; Peng, H. C.; Wang, Q.; Jia, Y. L.; He, J. T., Large Marks-Decahedral Pd Nanoparticles Synthesized by a Modified Hydrothermal Method Using a Homogeneous Reactor.Journal of Nanoparticle Research2017, 19, 162.
[81]. Yu, D. Q.; Li, S. Q.;Qi, W. H.*; Wang, M. P., Temperature-Dependent Raman Spectra and Thermal Conductivity of Multi-Walled Mos2 Nanotubes.Applied Physics Letters2017, 111, 123102.
[80]. Wu, H. F.;Qi, W. H.*; Peng, H. C.; He, J. T., Facile Synthesis of Ag@Pt Core-Shell Nanoparticles with Different Dendrites Pt Shells.Chemistryselect 2017, 2, 9344-9348.
[79]. Wang, T. R.;Qi, W. H.*; Tang, K. W.; Peng, H. C., Size Dependent Structural Stability of Mo, Ru, Y and Sc Nanoparticles.Journal of Physics and Chemistry of Solids 2017, 108, 1-8.
[78]. Wang, Q.; Zhao, Z. L.; Jia, Y. L.; Wang, M. P.;Qi, W. H.; Pang, Y.; Yi, J.; Zhang, Y. F.; Li, Z.; Zhang, Z., Unique Cu@Cupt Core-Shell Concave Octahedron with Enhanced Methanol Oxidation Activity.ACS Applied Materials & Interfaces2017, 9, 36817-36827.
[77]. Peng, H. C.;Qi, W. H.*; Ji, W. H.; Li, S. Q.; He, J. T., Structural Stability of Alloyed and Core-Shell Cu-Pt Bimetallic Nanoparticles.International Journal of Modern Physics B2017, 31, **.
[76]. Jia, Y. L.; Li, S. Q.;Qi, W. H.*; Wang, M. P.; Li, Z.; Wang, Z. X., Thermal Stability of Marks Gold Nanoparticles: A Molecular Dynamics Simulation.International Journal of Modern Physics B 2017, 31, **.
[75]. Hu, L.;Qi, W. H.*; Li, Y. J., Coating Strategies for Atomic Layer Deposition.Nanotechnology Reviews2017, 6, 527-547.
[74]. Zhang, N.; Chen, C.; Mei, Z.; Liu X.; Qu, X.; Li, Y.; Li S.;Qi,W.H.*; Zhang, Y.; Ye, J.; Roy, V. AL; Ma, R.;Monoclinic Tungsten Oxide with {100} Facet Orientation and Tuned Electronic Band Structure for Enhanced Photocatalytic Oxidations.ACS Applied Materials & Interfaces2016, 8, 10367-10374.
[73].Qi, W. H.*, Nanoscopic Thermodynamics.Accounts of Chemical Research2016, 49, 1587-1595. (封面论文)
[72]. Wang, Q.; Jia, Y. L.; Wang, M. P.;Qi, W. H.; Pang, Y.; Cui, X. M.; Ji, W. H.; Yi, J., Synthesis of Cu2o Nanotubes with Efficient Photocatalytic Activity by Electrochemical Corrosion Method.Journal of Physical Chemistry C2015, 119, 22066-22071.
[71]. Peng, H. C.;Qi, W. H.*; Li, S. Q.; Ji, W. H., Modeling the Phase Stability of Janus, Core-Shell, and Alloyed Ag-Cu and Ag-Au Nanoparticles.Journal of Physical Chemistry C2015, 119, 2186-2195.
[70]. Li, S. Q.;Qi, W. H.*; Peng, H. C.; Wu, J. Z., A Comparative Study on Melting of Core-Shell and Janus Cu-Ag Bimetallic Nanoparticles.Computational Materials Science2015, 99, 125-132.
[69]. Li, S. Q.;Qi, W. H.*, Unification of Two Different Melting Mechanisms of Nanovoids.Journal of Physical Chemistry C2015, 119, 6843-6851. (封面论文)
[68]. Ji, W. H.;Qi, W. H.*; Tang, S. S.; Peng, H. C.; Li, S. Q., Hydrothermal Synthesis of Ultrasmall Pt Nanoparticles as Highly Active Electrocatalysts for Methanol Oxidation.Nanomaterials 2015, 5, 2203-2211.
[67]. Ji, W. H.;Qi, W. H.*; Li, X.; Zhao, S. L.; Tang, S. S.; Peng, H. C.; Li, S. Q., Investigation of Disclinations in Marks Decahedral Pd Nanoparticles by Aberration-Corrected Hrtem.Materials Letters2015, 152, 283-286.
[66]. Zhang, S. D.;Qi, W. H.*; Huang, B. Y., Size Effect on Order-Disorder Transition Kinetics of Fept Nanoparticles.Journal of Chemical Physics 2014, 140, 044328
[65]. Li, S. Q.;Qi, W. H.*, Calculation of Absorption Spectrum of Silver-Gold Bimetallic Nanoparticles.Acta Physica Sinica2014, 63, 117802.
[64]. Ji, W. H.;Qi, W. H.*; Tang, S. S.; Huang, B. Y.; Wang, M. P.; Li, Y.; Jia, Y. L.; Pang, Y., Synthesis of Marks-Decahedral Pd Nanoparticles in Aqueous Solutions.Particle & Particle Systems Characterization 2014, 31, 851-856.
[63]. Wei, L. Y.;Qi, W. H.*; Huang, B. Y.; Wang, M. P., Surface Segregation of Au-Ag Bimetallic Nanowires.Computational Materials Science2013, 69, 374-380.
[62]. Liu, C. Z.;Qi, W. H.*; Ouyang, B.; Wang, X.; Huang, B. Y., Predicting the Size- and Shape-Dependent Cohesive Energy and Order-Disorder Transition Temperature of Co-Pt Nanoparticles by Embedded-Atom-Method Potential.Journal of Nanoscience and Nanotechnology2013, 13, 1261-1264.
[61]. Li, Y.;Qi, W. H.*; Huang, B. Y.; Ji, W. H.; Wang, M. P., Size- and Composition-Dependent Structural Stability of Core-Shell and Alloy Pd-Pt and Au-Ag Nanoparticles.Journal of Physical Chemistry C 2013, 117, 15394-15401.
[60]. Li, X.; Zhang, Y. F.;Qi, W. H.*; Cao, X. W.; Wang, Y.; Li, H. H., Hydrogen Storage Nanoalloys.Progress in Chemistry 2013, 25, 1122-1130.
[59]. Jiang, R.; Zhou, Z. F.; Yang, X. X.; Guo, N. G.;Qi, W. H.; Sun, C. Q., Size-Depressed Critical Temperatures for the Order-Disorder Transition of Fept, Copt, Fepb, Cu2s, and Zns Nanostructures.Chemical Physics Letters 2013, 555, 202-205.
[58]. Xiong, S. Y.;Qi, W. H.*; Huang, B. Y.; Wang, M. P.; Li, Z.; Liang, S. Q., Size-Temperature Phase Diagram of Titanium Nanosolids.Journal of Physical Chemistry C 2012, 116, 237-241.
[57]. Ouyang, B.;Qi, W. H.*; Liu, C. Z.; Wang, X.; Wei, L. Y.; Sun, C. Q., Size and Shape Dependent Order-Disorder Phase Transition of Co-Pt Nanowires.Computational Materials Science 2012, 63, 286-291.
[56]. Li, Y. J.;Qi, W. H.*; Li, Y.; Janssens, E.; Huang, B. Y., Modeling the Size-Dependent Solid-Solid Phase Transition Temperature of Cu2s Nanosolids.Journal of Physical Chemistry C2012, 116, 9800-9804.
[55]. Li, Y.;Qi, W. H.*; Huang, B. Y.; Wang, M. P., Modeling the Size- and Shape-Dependent Surface Order-Disorder Transition of Fe0.5pt0.5 Nanoparticles.Journal of Physical Chemistry C2012, 116, 26013-26018.
[54]. Xiong, S. Y.;Qi, W. H.*; Huang, B. Y.; Wang, M. P.; Wei, L. Y., Gibbs Free Energy and Size-Temperature Phase Diagram of Hafnium Nanoparticles.Journal of Physical Chemistry C 2011, 115, 10365-10369.
[53]. Xiong, S. Y.;Qi, W. H.*; Huang, B. Y.; Wang, M. P.; Li, Y. J.; Li, Z.; Liang, S. Q., Size- and Temperature-Induced Phase Transformations of Titanium Nanoparticles.EPL 2011, 93.
[52]. Xiong, S. Y.;Qi, W. H.*; Huang, B. Y.; Wang, M. P.; Cheng, Y. J.; Li, Y. J., Size and Shape Dependent Surface Free Energy of Metallic Nanoparticles.Journal of Computational and Theoretical Nanoscience 2011, 8, 2477-2481.
[51]. Xiong, S. Y.;Qi, W. H.*; Huang, B. Y.; Wang, M. P., Size-, Shape- and Composition-Dependent Alloying Ability of Bimetallic Nanoparticles.Chemphyschem2011, 12, 1317-1324.
[50]. Xiong, S. Y.;Qi, W. H.*; Cheng, Y. J.; Huang, B. Y.; Wang, M. P.; Li, Y. J., Universal Relation for Size Dependent Thermodynamic Properties of Metallic Nanoparticles.Physical Chemistry Chemical Physics2011, 13, 10652-10660.
[49]. Xiong, S. Y.;Qi, W. H.*; Cheng, Y. J.; Huang, B. Y.; Wang, M. P.; Li, Y. J., Modeling Size Effects on the Surface Free Energy of Metallic Nanoparticles and Nanocavities.Physical Chemistry Chemical Physics 2011, 13, 10648-10651.
[48]. Li, Y. J.;Qi, W. H.*; Huang, B. Y.; Wang, M. P.; Liu, J. F.; Xiong, S. Y., Generalized Bragg-Williams Model for the Size-Dependent Order-Disorder Transition of Bimetallic Nanoparticles.Journal of Physics D2011, 44, 115405
[47]. Xiong, S. Y.;Qi, W. H.*; Huang, B. Y.; Wang, M. P.; Li, Y. J., Size and Shape Dependent Gibbs Free Energy and Phase Stability of Titanium and Zirconium Nanoparticles.Materials Chemistry and Physics2010, 120, 446-451.
[46]. Qi, W. H.; Li, Y. J.; Xiong, S. Y.; Lee, S. T., Modeling Size and Shape Effects on the Order-Disorder Phase-Transition Temperature of Copt Nanoparticles.Small2010, 6, 1996-1999.
[45]. Qi, W. H.; Lee, S. T., Phase Stability, Melting, and Alloy Formation of Au-Ag Bimetallic Nanoparticles.Journal of Physical Chemistry C 2010, 114, 9580-9587.
[44]. Li, Y. J.;Qi, W. H.*; Huang, B. Y.; Wang, M. P.; Xiong, S. Y., Modeling the Thermodynamic Properties of Bimetallic Nanosolids.Journal of Physics and Chemistry of Solids 2010, 71, 810-817.
[43]. Li, Y. J.;Qi, W. H.*; Huang, B. Y.; Wang, M. P.; Xiong, S. Y., Modeling the Melting Temperature of Metallic Nanowires.Modern Physics Letters B 2010, 24, 2345-2356.
[42]. Li, Y. J.;Qi, W. H.*; Huang, B. Y.; Wang, M. P., Thickness Dependent Phase Stability of Epitaxial Metal Films.Physica B-Condensed Matter2010, 405, 2334-2336.
[41].Qi, W. H.; Lee, S. T., Core-Shell Structures of Silicon Nanoparticles and Nanowires with Free and Hydrogenated Surface.Chemical Physics Letters 2009, 483, 247-249.
[40].Qi, W. H.*; Huang, B. Y.; Wang, M. P.; Yin, Z. M.; Li, J., Molecular Dynamic Simulation of the Size- and Shape-Dependent Lattice Parameter of Small Platinum Nanoparticles.Journal of Nanoparticle Research 2009, 11, 575-580.
[39].Qi, W. H.*; Huang, B. Y.; Wang, M. P., Structure of Unsupported Small Palladium Nanoparticles.Nanoscale Research Letters2009, 4, 269-273.
[38].Qi, W. H.*; Huang, B. Y.; Wang, M. P., Bond-Length and -Energy Variation of Small Gold Nanoparticles.Journal of Computational and Theoretical Nanoscience2009, 6, 635-639.
[37].Qi, W. H.*; Huang, B. Y.; Wang, M. P., Size and Shape-Dependent Formation Enthalpy of Binary Alloy Nanoparticles.Physica B2009, 404, 1761-1765.
[36].Qi, W. H.*; Huang, B. Y.; Wang, M. P.; Yin, Z. M.; Li, J., Shape Factor for Non-Cylindrical Nanowires.Physica B2008, 403, 2386-2389.
[35].Qi, W. H.*; Huang, B. Y.; Wang, M. P.; Liu, F. X.; Yin, Z. M., Freezing of Silver Cluster and Nanowire: A Comparison Study by Molecular Dynamics Simulation.Computational Materials Science 2008, 42, 517-524.
[34]. Fang, S. F.; Wang, M. P.; Wang, Y. H.;Qi, W. H.; Li, Z., Evolutionary Artificial Neural Network Approach for Predicting Properties of Cu-15ni-8sn-0.4si Alloy.Transactions of Nonferrous Metals Society of China 2008, 18, 1223-1228.
[33]. Fang, S. F.; Wang, M. P.;Qi, W. H.; Zheng, F., Hybrid Genetic Algorithms and Support Vector Regression in Forecasting Atmospheric Corrosion of Metallic Materials.Computational Materials Science 2008, 44, 647-655.
[32].Qi, W. H.*; Wang, M. P., Structural Evolution of Pd-79 Cluster before Melting.Materials Letters 2007, 61, 3064-3067.
[31].Qi, W. H.*; Huang, B. Y.; Wang, M. P.; Li, Z.; Yu, Z. M., Generalized Bond-Energy Model for Cohesive Energy of Small Metallic Particles.Physics Letters A2007, 370, 494-498.
[30]. Xie, D.; Wang, M. P.;Qi, W. H.; Cao, L. F., Thermal Stability of Indium Nanocrystals: A Theoretical Study.Materials Chemistry and Physics2006, 96, 418-421.
[29].Qi, W. H.*; Wang, M. P.; Zhou, M.; Shen, X. Q.; Zhang, X. F., Modeling Cohesive Energy and Melting Temperature of Nanocrystals.Journal of Physics and Chemistry of Solids2006, 67, 851-855.
[28].Qi, W. H.*, Size and Shape Dependent Phase Diagram of Binary Metallic Nanoparticles.Acta Metallurgica Sinica2006, 42, 73-76.
[27].Qi, W. H.*, Size, Shape and Structure Dependent Cohesive Energy and Phase Stability of Metallic Nanocrystals.Solid State Communications2006, 137, 536-539.
[26].Qi, W. H.*, Modeling the Relaxed Cohesive Energy of Metallic Nanoclusters.Materials Letters 2006, 60, 1678-1681.
[25].Qi, W. H.*, Generalized Surface-Area-Difference Model for Cohesive Energy of Nanoparticles with Different Compositions.Journal of Materials Science2006, 41, 5679-5681.
[24].Qi, W. H.*, Study on Size and Shape Effects of Lattice Parameter and Cohesive Energy of Pd Nanoparticles.Acta Metallurgica Sinica2006, 42, 1065-1070.
[23].Qi, W. H.*, Size- and Coherence-Dependent Thermodynamic Properties of Metallic Nanowires and Nanofilms.Modern Physics Letters B2006, 20, 1943-1951.
[22]. Xie, D.; Wang, M. P.;Qi, W. H.; Cao, L. F., Equivalent Model on Melting and Superheating of Metallic Nanocrystals.Acta Metallurgica Sinica 2005, 41, 458-462.
[21].Qi, W. H.*; Wang, M. P.; Zhou, M.; Hu, W. Y., Surface-Area-Difference Model for Thermodynamic Properties of Metallic Nanocrystals.Journal of Physics D2005, 38, 1429-1436.
[20]. Qi, W. H.*; Wang, M. P.; Liu, Q. H., Shape Factor of Nonspherical Nanoparticles.Journal of Materials Science2005, 40, 2737-2739.
[19].Qi, W. H.*; Wang, M. P., Size and Shape Dependent Lattice Parameters of Metallic Nanoparticles.Journal of Nanoparticle Research 2005, 7, 51-57.
[18].Qi, W. H.*; Wang, M. P., Size- and Shape-Dependent Superheating of Nanoparticles Embedded in a Matrix.Materials Letters 2005, 59, 2262-2266.
[17]. Qi, W. H.*;Wang, M. P., Comment on "Stability of Scanning Tunneling Microscopy Tip-Induced Bimetallic Nanoclusters: Influence of Hardness and Composition on the Cohesive Energies".Journal of Physical Chemistry B 2005, 109, 22078-22079.
[16].Qi, W. H.*, Comment On: 'The Cluster Size Dependence of Thermal Stabilities of Both Molybdenum and Tungsten Nanoclusters'.Chemical Physics Letters 2005, 402, 279-281.
[15].Qi, W. H.*, Size Effect on Melting Temperature of Nanosolids.Physica B-Condensed Matter2005, 368, 46-50.
[14].Qi, W. H.*, Comment on "a Simplified Model to Calculate the Higher Surface Energy of Free-Standing Nanocrystals" Phys. Stat. Sol. (B) 242, No. 8, R76-R78 (2005).Physica Status Solidi B2005, 242, R129-R130.
[13]. Xie, D.; Wang, M. P.;Qi, W. H., A Simplified Model to Calculate the Surface-to-Volume Atomic Ratio Dependent Cohesive Energy of Nanocrystals.Journal of Physics-Condensed Matter 2004, 16, L401-L405.
[12]. Xie, D.;Qi, W. H.; Wang, M. P., Size and Shape Dependent Melting-Thermodynamic Properties of Metallic Nanoparticles.Acta Metallurgica Sinica2004, 40, 1041-1044.
[11]. Qi, W. H.*; Wang, M. P.; Hu, W. Y., Calculation of the Cohesive Energy of Metallic Nanoparticles by the Lennard-Jones Potential.Materials Letters2004, 58, 1745-1749.
[10].Qi, W. H.*; Wang, M. P., Vacancy Formation Energy of Small Particles.Journal of Materials Science 2004, 39, 2529-2530.
[9]. Qi, W. H.*; Wang, M. P., Size and Shape Dependent Melting Temperature of Metallic Nanoparticles.Materials Chemistry and Physics2004, 88, 280-284.
[8]. Qi, W. H.*; Wang, M. P.; Xu, G. Y., The Particle Size Dependence of Cohesive Energy of Metallic Nanoparticles.Chemical Physics Letters 2003, 372, 632-634.
[7]. Qi, W. H.*; Wang, M. P.; Xu, G. Y., Comment on "Size Effect on the Lattice Parameters of Nanoparticles".Journal of Materials Science Letters 2003, 22, 1333-1334.
[6]. Qi, W. H.*; Wang, M. P., Size Dependence of Vacancy Formation Energy of Metallic Nanoparticles.Physica B2003, 334, 432-435.
[5]. Liu, Q. H.;Qi, W. H.; Liu, T. G.; Zhu, Z. H., Classical Limit of Expectation Values in a Wave Packet Involving Few Stationary States.International Journal of Theoretical Physics 2003, 42, 783-791.
[4]. Liu, Q. H.; Jia, Y. W.;Qi, W. H.; Ou-Yang, Z. C., Static Bistable Helices in Generalized Helfrich Elastic Theory of a Chiral Filament.Physics Letters A 2003, 317, 401-405.
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