CURRICULUM VITAE PERSONAL INFORMATION Name: Wei Lu Gender: male Date of Birth: Oct. 09, 1979 Nationality: Chinese Present Address: Department of Applied Physics The Hong Kong Polytechnic University Hung Hom, Kowloon, Hong Kong WORKING EXPERIENCE Sep. 2011 – Present Aug. 2007 – Aug. 2011 Scientific Officer Department of Applied Physics. The Hong Kong Polytechnic University Assistant Scientific Officer Department of Applied Physics. The Hong Kong Polytechnic University EDUCATIONS Sep. 2003 –Jun 2007 Ph. D. in Materials Physics and Chemistry Supervisors: Prof. Lianlong He and Prof. Fuhui Wang Institute of Metal Research (IMR), Chinese Academy of Sciences (CAS), Shenyang, China. Sep 2001 Jun 2003 M. Sc. in Materials Physics and Chemistry Supervisors: Prof. Lianlong He and Prof. Fuhui Wang . Institute of Metal Research (IMR), Chinese Academy of Sciences (CAS), Shenyang. China. Sep 1997 Jun 2001 B. Sc. In Department of Physics, Qufu Normal University Qufu, China Skills Operation of JEOL 2010, JEOL-2100F, FIB 4501, Tecnia G2 F30 multi-function HRTEM (with EELS, Z-contrast, HAADF-STEM imaging techniques) and the analysis of their results. Experience for management of TEM and its associated equipments. TEM image simulation and related data analysis by employing EMS, NCEMSS, JEMS, DigitalMicrograph, and TIA. Sample Preparation: Thin films (cross-section and plan-view), Bulk materials, Nano-materials. Knowledge and experiences in investigation on microstructure and oxidation behavior of TiAl alloys and nano-materials. First principle calculation of physical and chemical properties of materials. 1 Publications [1]. Y. J. Xi, F. H. Wang, W. Lu, C. Y. Guo, L. L. He, Microstructure of Oxide Scales Formed on Ti-48Al-8Cr-2Ag Alloy in Air at 900-1000C. Oxid. Metals, 2005, 63(3/4): 229. [2]. W. Lu, C. L. Chen, Y. J. Xi, C. Y. Guo, F. H. Wang, L. L. He, TEM investigation of the oxide scale of Ti-46.5Al-5Nb at 900 ºC for 50 Hr. Intermetallics, 2007, 15: 824. [3]. W. Lu, C. L. Chen, F. H. Wang, J. P. Lin, G. L. Chen, L. L. He, Phase transformation in nitride layer during the oxidation of TiAl based alloys. Scripta Mater., 2007, 56(9): 773. [4]. W. Lu, C. L. Chen, L. L. He, Y. J. Xi, F. H. Wang, Effect of Niobium on the oxidation behavior of TiAl. J. Mater. Res., 2007, 22(6): 1486. [5]. W. Lu, C. L. Chen, Y. J. Xi, F. H. Wang, L. L. He, The oxidation behavior of Ti-46.5Al-5Nb at 900 C. Intermetallics, 2007, 15: 989. [6]. C. L. Chen, W. Lu, Y. Y. Cui, L.L. He, H. Q. Ye, Deformation-induced γ↔α2 phase transformation in TiAl alloy compressed at room temperature, Intermetallics, 2007, 15: 722. [7]. C. L. Chen, W. Lu, J. P. Lin, G.L. Chen, H. Q. Ye, Orientation Relationship between TiB Precipitate and -TiAl phase, Scripta Mater., 2007, 56(6): 441. [8]. C. L. Chen, W. Lu, L.L. He, H. Q. Ye, Deformation-induced γ → α phase transformation occurred in the twin-intersection region of TiAl alloys, J. Mater. Res., 2007, 22(9):2416. [9]. C. Y. Guo, C. B. Zhang, W. Lu, L. L. He, Y. J. Xi, F. H. Wang, TEM study to initial oxidation of Ti42Al48Cr8Ag2 alloy. Oxid. Metals, 2007, 68:65. [10]. C. L. Chen, W. Lu, Y. Y. Cui, L.L. He, H. Q. Ye, TEM observations of twin intersections in a Ti-47Al-2Cr-2Nb-0.1Y alloy compressed at room temperature, Journal of alloys and compounds, 2008, 454: 201. [11]. W. Lu*, C. L. Chen, F. H. Wang, J. P. Lin, G. L. Chen, L. L. He, (S)TEM study of different stages of Ti-45Al-8Nb-0.2W-0.2B-0.02Y Alloy oxidation at 900C. Corros. Science, 2008, 50(4): 978. [12]. W. Lu*, C. L. Chen, L. L. He, F. H. Wang, Electron Microscopy Study of Different Stages of Oxidation of Ti-47Al-2Nb-2Cr-0.15B and Ti-45Al-15Nb at 900 C. Journal of Microscopy, 2008, 231: 124. [13]. W. Lu*, X. H. Deng, H. Wang, H. T. Huang, L. L. He, Electronic structure and chemical bonding of - and -Ta4AlC3 phases: full-potential calculation. J. Mater. Res., 2008, 23(9): 2350. 2 [14]. J. X. Zhang, J. Y. Dai, W. Lu, H. L. W. Chan, B. Wu, D. X. Li, A novel nanostructure and multiferroic properties in Pb(Zr0.52Ti0.48)O-3/CoFe2O4 nanocomposite films grown by pulsed-laser deposition. Journal of physics D-Applied physics. 2008, 41(23): 235405. [15]. C.L. Chen, W. Lu, Y.Y. Cui, L.L. He, H.Q. Ye, High-resolution image simulation of overlapped structures in TiAl alloy. Journal of alloys and compounds, 2009, 468: 179. [16]. W. Lu*, H. Wang, Y. M. Hu, H. T. Huang, H. S. Gu, Hardness Prediction of fluorite TiO2 in first principle. Physica B, 2009, 404: 79. [17]. X. Y. Zhang, W. Lu, J. Y. Dai, H. T. Wang, D. Y. Zhao, and Paul A Webley, Porous platinum nanowire arrays for direct ethanol fuel cell applications. Chemical Communications, 2009, 2: 195. [18]. X. H. Deng, B. B. Fan, W. Lu, First-principles investigations on elastic properties of - and -Ta4AlC3. Solid State Commun. 2009, 149: 441. [19]. C.L. Chen, W. Lu, L.L. He, H.Q. Ye, Orientation relationships between TiB (B27), B2 and Ti3Al phases. J. Mater. Res., 2009, 24: 1688. [20]. X. H. Deng, W. Lu, Y. M. Hu, H. S. Gu, The elastic properties of hexagonal Osmium at pressure: The first-principles investigations. Physica B, 2009, 404: 1218. [21]. H. Wang, H. T. Huang, W. Lu, and Helen L. W. Chan, B. Wang, C. H. Woo, Origin of the large tetragonality in Bi2ZnTiO6: A first-principles study. J. Appl. Phys. 2009, 105: 053713. [22]. C.L. Chen, W. Lu, L.L. He, H.Q. Ye, First-principles study of deformation-induced phase transformations in Ti-Al intermetallics. J. Mater. Res., 2009, 5, 1662. [23]. J. X. Zhang, J. Y. Dai, W. Lu, H. L. W. Chan, Room temperature magnetic exchange coupling in multiferroic BaTiO3/CoFe2O4 magnetoelectric superlattice. Journal of Materials Science., 2009, 44(19): 5143. [24]. C.L. Chen, W. Lu, D. Sun, L.L. He, H.Q. Ye, Deformation-induced α2 → γ phase transformation in TiAl alloys. Materials Characterization, 2010, 61(11):1029. [25] X. H. Deng, W. W. Wang, D. Y. Zhang, W. Lu, B. B. Fan, First-principles investigations of the magnetic properties of graphite boron nitride sheet induced by Fe doping. J. Phys.: Condens. Matter, 2010 22:205501. [26]. X. Y. Zhang, W. Lu, J. Y. Dai, L. Bourgeois, N. Hao, H. T. Wang, D. Y. Zhao, Paul A. Webley, Ordered Hierarchical Porous Platinum Membranes with Tailored Mesostructures. ANGEWANDTE CHEMIE, 2010 122(52):10299. [27]. K. Y. Xie, J. Li, Y. Q. Lai, W. Lu, Z. A. Zhang, Y. X. Liu, L. M. Zhou, H. T. Huang, Highly ordered iron oxide nanotube arrays as electrodes for electrochemical energy storage. Electrochem Commun, 2011 13: 657. 3 [28]. K.Y. Xie, Z.G. Lu, H.T. Huang, W. Lu, Y.Q. Lai, J. Li, L.M. Zhou and Y.X. Liu, Iron supported C@Fe3O4 nanotube array: a new type of 3D anode with low-cost for high performance lithium-ion batteries. Journal of Materials Chemistry, 2012 22: 5560. [29]. X. H. Deng, W. Lu*, H. Wang, H. T. Huang and J. Y. Dai, Electronic, magnetic and dielectric properties of multiferroic MnTiO3. J. Mater. Res., 2012, 27(11):1421. [30]. C. Y. Li, X. D. Du, W. Lu, K. L. Liu, J. Z. Chang, S. L. Chen, D. Yue, Z. L. Wang, Luminescent single-crystal ZnO nanorods Controlled synthesis through altering the solvents composition. Materials Letters, 2012, 81: 229. [31]. J. Lin, X. L. Liu, M. Guo, W. Lu, G. G. Zhang, L. M. Zhou, X. F. Chen, H. T. Huang, A facile route to fabricate an anodic TiO2 nanotube-nanoparticle hybrid structure for high efficiency dye-sensitized solar cells. Nanoscale, 2012, 4,5148 [32].D. Yue, C. Y. Li, W. Lu, X. L. Zhang, J. Z. Chang, Z. L. Wang, Controllable morphology, phase and luminescent properties of rare earth ion-doped LaPO4 nanostructural materials. Acta Chim. Sinica, 2012, 70(17), 1812 (in Chinese) [33]. L.F. Fei, W. Lu, L. Sun, J.P. Wang, J.B. Wei, Helen L.W. Chan, Y. Wang, Highly Entangled Carbon Nanoflakes on Li3V2(PO4)3 Microrods for Improved Lithium Storage Performance. RSC Advances. 2013, 3:1297. [34]. M. Jin, G.G. Zhang, F. Yu, W.F. Li, W. Lu, H.T. Huang, Sponge-like Ni(OH)2-NiF2 composite film with excellent electrochemical performance. Phys. Chem. Chem. Phys. 2013, 15: 1601. 中文: [1]. 陈春林,鲁伟,贺连龙,叶恒强,钛铝合金中的形变诱发ɣ-DI-相变,电子显微学报, , Conferences [1]. 鲁伟,贺连龙,高铌TiAl合金的氧化及其显微结构研究. 电子显微学报, 2004; 23(4): 371-371. [2]. W. Lu, Y. J. Xi, C. Y. Guo, F. H. Wang, L. L. He, TEM Investigation of the oxide scale of Ti-46.5Al-5Nb at 900oC. The 6th International Workshop on Advanced Intermetallics and Metallic Materials, Nanjing, China, 2005, Oral [3]. W. Lu, Y. J. Xi, F. H. Wang, L. L. He, Applications of element mapping in STEM on the study of Ti-46.5Al-5Nb Oxidation. Proceedings of the 16th International Microscopy Congress, Sapporo, Japan, 2006, 867. 4 [4]. W. Lu, X. H. Deng, H. T. Huang and J. Y. Dai, Electronic, multiferroic and dielectric properties of LiNbO3-type MnTiO3. International Symposium on Integrated Functionalities. ISIF 2012. HK. Poster. [5]. 鲁伟, 王振领, 纳米片及环状氟化铕的显微结构表征. 电子显微学报,2012 增刊; [6]. W. Lu, Z. L. Wang, Synthesis and Characterization of ZnO Mushroom Assembled from Nano Flakes. Poster, 2012年全国电子显微学年会. [7]. 鲁伟,张信义,谢科予,黄海涛,戴吉岩, 一维纳米材料在燃料/锂离子电池中的应用. 材 料科学分会场特邀报告,2012年全国电子显微学年会. 5