清华大学机械工程系博士研究生导师简介：雒建斌

　　雒建斌

　　中国科学院院士，博士，长江特聘教授，博士生导师

　　清华大学摩擦学国家重点实验室100084

　　010-62781385 010-62781379(fax)

　　luojb@tsinghua.edu.cn

　　教育背景

　　博士，清华大学精密仪器与机械学系，1994年获工学博士学位。

　　硕士，西安建筑科技大学冶金系，1988年获工学硕士学位。

　　学士，东北大学材料系，1982年获工学学士学位。

　　工作履历

　　2012.12-今 清华大学机械工程系 主任

　　2004.06-今 清华大学摩擦学国家重点实验室 主任

　　2000.08-今 清华大学摩擦学国家重点实验室 研究员、博导

　　1998.05-1998.11 香港城市大学 访问学者

　　1997.02-2004.06 清华大学摩擦学国家重点实验室 副主任

　　1994.06-2000.07 清华大学摩擦学国家重点实验室 讲师、副教授

　　1988.04-1991.09 西安建筑科技大学 讲师

　　1982.07-1985.09 西安电缆厂 技术员、助理工程师

　　学术兼职

　　2008.02-今 国际摩擦学理事会 副主席

　　2005-09-今 国际机构学与机器科学联合会(IFToMM)摩擦学技术委员会 主席

　　2007.11-2011.10 中国机械工程学会摩擦学分会 主任委员

　　2009-今 国家自然科学基金委员会“纳米制造”重大研究计划专家组 副组长

　　2006-2009 国家自然科学基金委员会工程材料学部 评审专家组成员

　　2008-2009 教育部科学技术奖 专家评委会成员

　　2008-今 清华大学学术委员会 委员

　　2009-今 华中科技大学数字制造装备与技术国家重点实验室学术委员会 委员

　　2009-今 西安交通大学机械制造系统工程国家重点实验室学术委员会 委员

　　2013.01-今 Friction 主编

　　2006.10-今 Tribology-Materials, Surfaces & Interfaces 编委

　　2005.01-今 Surface Science and Engineering 编委

　　2004.10-今 Surface and Coatings Technology 编委

　　2004.05-2007.05 Wear 编委

　　2003.01-今 科学通报，Chinese Science Bulletin 编委

　　2008-今 《润滑与密封》 副主任

　　2002.10-今 《摩擦学学报》 编委

　　研究领域

　　薄膜润滑

　　纳米制造

　　奖励与荣誉

　　长期从事纳米摩擦学研究和纳米制造研究。曾担任两届973项目首席，国家自然科学基金创新群体负责人。曾获国家发明三等奖、国家自然科学二等奖、国家科技进步二等奖和省部级科技奖7项;2013年获美国STLE国际奖;在国际学术会议上做特邀报告20余次，其中Plenary和Keynote报告13次。出版英文专著1部，参编英文专著1部，翻译英文专著1部;发表和合作发表论文250余篇，SCI收录150余篇，他引2000余次;授权国家发明专利20余件。

　　学术成果

　　代表著作

　　1.Luo J.B., Hu Y.Z., Wen S.Z., “Physics and Chemistry of Micro-/Nanotribology,” ASTM International, Maryland in USA, 2008.

　　2.Luo J.B., Meng Y.G., Shao T.M., Zhao Q., “Advanced Tribology,” Tsinghua University Press & Springer Dordrecht Heidelberg, Beijing, 2009.

　　3.Luo J.B., Wen S.Z., “Measuring Technique and Characteristics of Thin Film Lubrication”, in “Mechanical Tribology”, edited by Totten G.E. and Liang H., Marcel Dekker Inc. 2004.

　　代表论文

　　1.Li J.J., Liu Y.H., Luo J.B., et al., “Excellent lubricating behavior of brasenia schreberi mucilage”, Langmuir, 28 (20): 7797-7802, 2012.

　　2.Xie G.X., Luo J.B., Yang Y., et al., “Water droplets on a hydrophobic insulator surface under high voltages: a thermal perspective”, Applied Physics Letters, 101 (13): 13602, 2012.

　　3.Si L.N., Guo D., Luo J.B., et al., “Planarization process of single crystalline silicon asperity under abrasive rolling effect studied by molecular dynamics simulation”, Applied Physics A: Materials Science & Processing, 109 (1): 119-126, 2012.

　　4.Chen R.L., Luo J.B., Guo D., et al., “Effect of crystallographic orientation on the extrusion of silicon surface during an impact: molecular dynamics simulation”, Nuclear Instruments & Methods in Physics Research Section B, 270: 133-139, 2012.

　　5.Xu X.F., Luo J.B., Guo D., “Radial-velocity profile along the surface of evaporating liquid droplets”, Soft Matter, 8 (21): 5797-5803, 2012.

　　6.Ma L.R., Luo J.B., Zhang C.H., et al., “Film formation of yogurt under confined condition”, Surface and Interface Analysis, 44 (2): 258-262, 2012.

　　7.Han G.Q., Liu Y.H., Luo J.B., et al., “Preparation, characterization and formation mechanism of thermoplastic polyurethane nanostructures using solution wetting template”, Journal of Nanoscience and Nanotechnology, 11 (11): 10240-10246, 2011.

　　8.Ma Z.Z., Zhang C.H., Luo J.B., et al., “Superlubricity of a mixed aqueous solution”, Chinese Physics Letters, 28 (5): 056201-1-056201-4, 2011.

　　9.Luo J., Guo D., Luo J.B., et al., “Numerical simulation of bubble dynamics in a micro-channel under a nonuniform electric field”, Electrophoresis, 32 (3-4): 414-422, 2011.

　　10.Xie G.X., Luo J.B., Liu S.H., et al., “Electrical potential modulation of dynamic film properties of aqueous surfactant solutions through a nanogap”, Journal of Applied Physics, 109 (2): 24309, 2011.

　　11.Xu X.F., Luo J.B., Guo D., “Nanoparticle-wall collision in a laminar cylindrical liquid jet”, Journal of Colloid and Interface Science, 359 (2): 334-338, 2011.

　　12.Xie G.X., Luo J.B., Liu S.H., et al., “Nanoconfined liquid aliphatic compounds under external electric fields: roles of headgroup and alkyl chain length”, Soft Matter, 7 (9): 4453-4460, 2011.

　　13.Ma L.R., Zhang C.H., Luo J.B., “Investigation of the film formation mechanism of oil-in-water (O/W) emulsions”, Soft Matter, 7 (9): 4207-4213, 2011.

　　14.Si L.N., Guo D., Luo J.B., et al., “Abrasive rolling effects on material removal and surface finish in chemical mechanical polishing analyzed by molecular dynamics simulation”, Journal of Applied Physics, 109 (8): 84335, 2011.

　　15.Lei J., Guo D., Luo J.B., et al., “Probing particle movement in CMP with fluorescence technique”, Journal of The Electrochemical Society, 158 (6): H681-H685, 2011.

　　16.Chen R.L., Luo J.B., Guo D., “Dynamic phase transformation of crystalline silicon under the dry and wet impact studied by molecular dynamics simulation,” Journal of Applied Physics, 108 (7): 073521, 2010.

　　17.Xie G.X., Luo J.B., Liu S.H., et al., “Electric-fields-enhanced destabilization of oil-in-water emulsions flowing through a confined wedgelike gap,” Journal of Applied Physics, 108 (6): 064314, 2010.

　　18.Ma L.R., Luo J.B., Zhang C.H., “Effect of solid surface on the formation of thin confined lubricating film of water with micro-content of oil,” Applied Surface Science, 256 (22): 6574-6579, 2010.

　　19.Li G., Zhang C.H., Xu H.Y., Luo J.B., et al., “The film behaviors of grease in point contact during microoscillation,” Tribology Letters, 38 (3): 259-266, 2010.

　　20.Xie G.X., Luo J.B., Liu S.H., et al., “Bubble generation in a nanoconfined liquid film between dielectric-coated electrodes under alternating current electric fields,” Applied Physics Letters, 96 (22): 223104, 2010.

　　21.Si L.N., Guo D., Luo J.B., et al., “Monoatomic layer removal mechanism in chemical mechanical polishing process: A molecular dynamics study,” Journal of Applied Physics, 107 (6): 064310, 2010.

　　22.Xie G.X., Luo J.B., Guo D., et al., “Nanoconfined ionic liquids under electric fields,” Applied Physics Letters, 96 (4): 043112, 2010.

　　23.Xie G.X., Luo J.B., Liu S.H., et al., “‘Freezing’ of nanoconfined fluids under an electric field,” Langmuir, 26 (3): 1445-1448, 2010.

　　24.Xu X.F., Luo J.B., Guo D., “Criterion for reversal of thermal marangoni flow in drying drops,” Langmuir, 26 (3): 1918-1922, 2010.

　　25.Liu S.H., Luo J.B., Xie G.X., et al., “Effect of surface charge on water film nanoconfined between hydrophilic solid surfaces,” Journal of Applied Physics, 105 (12): 124301, 2009.

　　26.Ma L.R, Luo J.B., Zhang C.H., et al., “Effect of microcontent of oil in water under confined condition,” Applied Physics Letters, 95 (9): 091908, 2009.

　　27.Chen R.L., Luo J.B., Guo D., et al., “Extrusion formation mechanism on silicon surface under the silica cluster impact studied by molecular dynamics simulation,” Journal of Applied Physics, 104 (10): 104907, 2008.

　　28.Xie G.X., Luo J.B., Liu S.H., et al., “Micro-bubble phenomenon in nanoscale water-based lubricating film induced by external electric field,” Tribology Letters, 29 (3): 169-176, 2008.

　　29.Xu X.F., Luo J.B., Lu X.C., et al., “Effect of nanoparticle impact on material removal,” Tribology Transactions, 51 (6): 718-722, 2008.

　　30.Luo J.B., “Variation of surface layer during chemical mechanical polish”, Indian Journal of Pure & Applied Physics, 45 (4): 403-405, 2007.

　　31.Luo J.B., Liu S., “The investigation of contact ratio in mixed lubrication,” Tribology International, 39 (5): 409-416, 2006.

　　32.Zhang C.H., Luo J.B., Liu J.Q., et al., “Analysis on contact and flow features in CMP process,” Chinese Science Bulletin, 51 (18): 2281-2286, 2006.

　　33.Xu J., Luo J.B., Zhang C.H., et al., “Nano-deformation of a Ni-P coating surface after nanoparticle impacts,” Applied Surface Science, 252 (16): 5846-5854, 2006.

　　34.Luo J.B., He Y., Zhong M., et al., “Gas bubble phenomenon in nanoscale liquid film under external electric field,” Applied Physics Letters, 89 (1): 013104, 2006.

　　35.Xu J., Luo J.B., Lu X.C., et al., “Atomic scale deformation in the solid surface induced by nanoparticle impacts,” Nanotechnology, 16: 859-864, 2005.

　　36.Luo J.B., Shen M.W., Wen S.Z., “Tribological properties of nanoliquid film under an external electric field,” Journal of Applied Physics, 96 (11): 6733-6738, 2004.

　　37.Luo J.B., Yang M.C., Zhang C.H., et al., “Study on the cyclotriphosphazene film on magnetic head surface,” Tribology International, 37 (7): 585-590, 2004.

　　38.Lei H., Luo J.B., “CMP of hard disk substrate using a colloidal SiO2 slurry: preliminary experimental investigation,” Wear, 257 (5-6): 461-470, 2004.

　　39.Qi J., Luo J.B., Wang K.L., et al., “Mechanical and tribological properties of diamond-like carbon films deposited by electron cyclotron resonance microwave plasma chemical vapor deposition,” Tribology Letters, 14 (2): 105-109, 2003.

　　40.Zhang C.H., Luo J.B., Li W.Z., et al., “Mechanical properties of nano-composite TiN/Si3N4 films synthesized by ion beam assisted deposition (IBAD),” Journal of Tribology-transactions of the ASME, 125 (2): 445-447, 2003.

　　41.Shen M.W., Luo J.B., Wen S.Z., “The tribological properties of oils added with diamond nano-particles,” Tribology Transactions, 44 (3): 494-498, 2001.

　　42.Luo J.B., Huang P., Wen S.Z., et al., “Characteristics of fluid lubricant films at the nano-scale,” Journal of Tribology-transactions of the ASME, 121 (4): 872-878, 1999.

　　43.Luo J.B., Qian L.M., Wen S.Z., et al. “The failure of fluid film at nano-scale,” Tribology Transactions, 42 (4): 912-916, 1999.

　　44.Luo J.B., Wen S.Z., Huang P., “Thin film lubrication, Part I: The transition between EHL and thin film lubrication,” Wear, 194: 107-115, 1996.

　　45.Luo J.B., Wen S.Z., “Mechanism and characteristics of thin film lubrication at nanometer scale,” Science in China (A), 39 (12), 1312-1322, 1996.

文章来源：清华大学机械工程系