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刘富德教授

2015/04/30 10:56:54人浏览

刘富德     LIUFUDE    教授

所属学院:

材料与能源学院

导师类别:

博士生导师、硕士生导师

科研方向:

能源器件(太阳能发电及化学储能)、新材料、固态电子器件

联系方式:

1821056323@qq.com

博士招生学院

材料与能源学院

硕士招生学院:

材料与能源学院

个人简述

(300)

刘富德教授从美国北卡罗来纳州立大学获得博士学位,是中组部第五批“青年千人”入选者。曾在香港大学任教(助理教授、博导),与世界上多个著名研究所(美国国家再生能源实验室、橡树岭国家实验室、IMEC)、大学(MIT和宾州州立大学)及公司(Intel、德州仪器)在能源器件方面有过多项合作。他有五十多篇科技论文和一本著作,是三个国际期刊的编委会成员。刘博士是美国机械工程师协会能源可持续大会(Energy Sustainability Conference)、美国IEEE  PVSC光伏大会和国际材料联合会太阳能分会的组织者(五次),以及第四届美国机械工程师协会微纳热质传导大会(Micro/Nanoscale  Heat & Mass Transfer International Conference)主要组织者之一。刘博士也是世界上多个专业协会的会员。

学科领域

科学学位:材料科学与工程/微电子学与固体电子学

专业学位:材料工程

教育背景

1993-1997, 华南理工大学材料学学士;

1997-2000, 华南理工大学材料学硕士;

2001-2003, 美国新泽西州立大学硕士;

2004-2006, 美国北卡州立大学博士。

工作经历

2007-2009 美国再生能源国家实验室博士后;

2009-2015 香港大学助理教授、博导;

2015至今广东工业大学教授、博导。

主要荣誉

[1] 入选中组部第五批“青年千人计划”

[2] Certificate of Appreciation for being  a Track Organizer “Photovoltaics” at the 7th International Conference on  Energy Sustainability, Minneapolis, MN, July 2013.

[3] Engineering  Overseas Visitor Programme Fellowship (EOVPF) (HK$50,000) (2011 July).

[4] Excellence in Teaching: Ranked in the  top 25% in the teaching evaluation in the Faculty of Engineering, The  University of Hong Kong (2010 spring).

[5] Excellence in Teaching: Ranked in the  top 25% in the teaching evaluation in the Faculty of Engineering, The  University of Hong Kong (2009 fall).

[6] Travel award for the American Physical  Society (APS) Workshop on Energy, New Orleans (March, 2008)Fellowship,  Rutgers University, New Brunswick, NJ (2001)

主要论文

主要论文(星号表示通讯作者)

[1]   Wentao  Wang, Fude Liu*, Lei Wang, W.C.H. Choy, F. Yan, S. Johnston, M.M.  Al-Jassim, Passivating silicon grain boundaries with small polar molecules  for photovoltaics, Journal of Solar Energy Research Updates 1, 12 (2014).

[2]   Lei  Wang, Fude Liu*, Wentao Wang, Dawei Zheng, Huizhi Wang and Michael  Kow-Hi Leung, A hybrid aluminum/hydrogen/air cellcommon cathode, Journal of Energy and Power  Engineering 8, 1889 (2014).

[3]  Qi Jiang, Huidan Zeng, Xiang Li, Jing  Ren, Guorong Chen, Fude Liu, Tailoring Sodium Silicophosphate Glasses Containing  SiO6-Octahedra through Structural Rules and Topological  Principles, The Journal of Chemical Physics 141, 124506 (2014).

[4]  Guandong Yang, Fude Liu*, Lei  Wang, Wentao Wang, C.-S. Jiang and M.M.  Al-Jassim, Selective Deposition of Nanocrystalline Carbon Films on GaN  Diodes with Photocatalytic Reactions, CrystEngComm 16, 10097 (2014).

[5]  Lei Wang, Fude Liu*, Wentao  Wang, Guandong Yang, Zhuangchun Wu and Michael K.H. Leung, A high-capacity  dual-electrolyte aluminum/air electrochemical cell, RSC Advances 4, 30857 (2014).

[6]  Fude Liu*, Guandong Yang, and Gerd  Duscher, Chemical composition study of high-K La-silicate gate stacks at  sub-nanometer scale, Phys. Status Solidi A 211, 2537 (2014).

[7]  Huidan Zeng*,Qi Jiang,  Zhao Liu, Jing Ren, Guorong Chen, Fude Liu*, Jianrong Qiu, Unique  Sodium Phosphosilicate Glasses Designed Through Extended Topological  Constraint Theory, J. Phys. Chem. B 118, 5177 (2014).

[8]  Fude Liu*, Wentao Wang, Lei Wang,  and Guandong Yang, Ferroelectric-semiconductor  photovoltaics: Non PN junction solar cells, Applied Physics Letters 104,  103907 (2014).

[9]  Wentao Wang, Fude Liu*, Lei  Wang, Guandong Yang, and Zhigang Li, Field-effect  BaTiO3-Si solar cells, Applied Physics Letters 104, 123901  (2014).

[10]Fude Liu*, Wentao Wang, Chor Man Lau, Lei Wang, Guandong Yang,  Dawei Zheng, Zhigang Li, Non-pn-junction-based Solar Cells: Charge Carrier  Separation in Solar Cells with Bound Surface Charges, Proc. of the 40th IEEE  Photovoltaic Specialists Conference, Denver, CO, June 2014.

[11]Wentao Wang, Fude Liu*, Chor Man Lau, Lei Wang, Guandong Yang,  Dawei Zheng, Zhigang Li, Field-Effect Ferroelectric-Semiconductor Solar  Cells, Proc. of the 40th IEEE Photovoltaic Specialists Conference, Denver,  CO, June 2014.

[12]Lei Wang, Wentao Wang, Guandong Yang,  Dong Liu, Jin Xuan, Huizhi Wang, Michael K.H. Leung and Fude Liu*, A  hybrid aluminum/hydrogen/air cell system, International Journal of  Hydrogen Energy 38, 14801 (2013).

[13]Lei Wang, Wentao Wang, Michael K.H.  Leung, and Fude Liu*, Aluminum/Hydrogen/Air Tandem Fuel Cell with  Tri-Electrodes, Proc. of the ASME 2013 7th International Conference on Energy  Sustainability & 11th Fuel Cell Science, Engineering and Technology  Conference, Minneapolis, MN, July 2013 (ES-FuelCell2013-18294).

[14]Fude Liu*, L. Wang, G. Yang, and W. Wang, Rapid  melt crystallization of amorphous-silicon thin films, Applied Physics Letters 102, 082109 (2013)

[15]Fude Liu*, W. Wang, L. Wang, and G. Yang,  Working principles of solar and other energy conversion cells, Nanomaterials  and Energy 2, 3 (2012).

[16]W. Wang, L. Wang, Fude Liu*, F.  Yan, S. Johnston, and M. Al-Jassim, Silicon grain boundary passivation for  photovoltaics: A novel approach with small polar molecules, Proc. of the 38th  IEEE Photovoltaic Specialists Conference, Austin, Texas, June 2012.

[17]Fude Liu*, C.-S. Jiang, H. Guthrey, S.  Johnston, M.J. Romero, B.P. Gorman, and M.M. Al-Jassim, Optical response of  grain boundaries in upgraded metallurgical-grade silicon for photovoltaics,  Solar Energy Materials & Solar Cells 95, 2497 (2011).

[18]Wentao Wang, Lei Wang, and Fude  Liu*, Grain boundary passivation with small polar molecules for  photovoltaics, Proc. of the 37th IEEE Photovoltaic Specialists Conference,  Seattle, Washington, June 2011.

[19]Fude Liu*, M.M. Al-Jassim, and D.L. Young,  Ultra-high material-quality silicon pillars on glass, Proc. of the 35th IEEE  Photovoltaic Specialists Conference, Honolulu, Hawaii, June 2010.

[20]Fude Liu*, K.M. Jones, Y. Xu, W. Nemeth, J.  Lohr, J. Nielson, M.J. Romero, M.M. Al-Jassim, and D.L.Young, Ultra-high  crystalline-quality silicon pillars formed by millimeter-wave annealing of  amorphous silicon on glass, Advanced Materials 21, 3002 (2009).  Featured by the journal cover; selected for Advances In Advance by  the journal.

[21]Fude Liu*, M.J. Romero, K.M. Jones, M.M.  Al-Jassim, O. Kunz, J. Wong, and A.G. Aberle, Solid phase crystallization of  evaporated silicon thin film on glass for photovoltaics: A combined SEM and  TEM study, Proc. of SPIE 7409, 740906 (2009).

[22]Fude Liu*, M.J. Romero, K.M. Jones, R.C. Reedy,  M.M. Al-Jassim, O. Kunz, J. Wong, and A.G. Aberle, Characterization of  evaporated solid-phase crystallized silicon thin-film solar cells on glass,  Proc. of the 34th IEEE Photovoltaic Specialists Conference, Philadelphia, PA,  June 2009.

[23]M.J. Romero, Fude Liu, O. Kunz,  J. Wong, C.-S. Jiang, M.M. Al-Jassim, and A.G. Aberle, Imaging electron  transport across grain boundaries in an integrated electron and atomic force  microscopy platform: Application to polycrystalline silicon solar cells, Mater.  Res. Soc. Symp. Proc. 1153, 1153-A15-03 (2009).

[24]C.-S. Jiang, H.R. Moutinho, Fude  Liu, M.J. Romero, and M.M. Al-Jassim, Carrier depletion and grain  misorientations on individual grain boundaries of polycrystalline Si thin  films, Proc. of the 34th IEEE Photovoltaic Specialists Conference,  Philadelphia, PA, June 2009.

[25]D.L. Young, H.M. Branz, Fude Liu,  R. Reedy, B. To, and Q. Wang, Electron transport and band structure in  phosphorus-doped polycrystalline silicon films, Journal of Applied Physics  105, 033715 (2009).

[26]Fude Liu*, R. Collazo, S. Mita, Z. Sitar, S.J.  Pennycook, and G. Duscher, Direct observation of inversion domain boundaries  of GaN on c-sapphire at sub-angstrom resolution, Advanced Materials  20, 2162 (2008).

[27]Fude Liu*, R. Collazo, S. Mita, Z. Sitar, and  G. Duscher, Three-dimensional geometry of AlN nano-pits: A new template for  quantum dots?, Advanced Materials 20, 134 (2008).

[28]T. Zheleva, A. Lelis, G. Duscher, Fude  Liu, I. Levin, and M. Das, Transition layers at the SiO2/SiC  interface, Applied Physics Letters 93, 022108 (2008). Selected for  Virtual Journal of Nanoscale Science & Technology 18 (4), July 28,  2008.

[29]Fude Liu*, M.J. Romero, K.M. Jones, A.G. Norman,  M.M. Al-Jassim, D. Inns, and A.G. Aberle, Intragrain defects in  polycrystalline silicon thin-film solar cells on glass by aluminum-induced  crystallization and subsequent epitaxy, Thin Solid Films 516, 6409  (2008).

[30]U. Lee, T. Zheleva, A. Lelis, G.  Duscher, Fude Liu, M. Das, and J. Scofield, Analytical and structural  investigations of the metal-enhanced oxidation of SiC-MOS structures, ECS  Transactions 13 (3), 99 (2008).

[31]Fude Liu*, R. Collazo, S. Mita, Z. Sitar, G.  Duscher, and S.J. Pennycook, The mechanism for polarity inversion of GaN via  a thin AlN layer: direct experimental evidence, Applied Physics Letters  91, 203115 (2007).

[32]Fude Liu* and G. Duscher, Thermal annealing  effect on the interface structure of high-k LaScO3 on silicon, Applied  Physics Letters 91, 152906 (2007).

[33]Fude Liu* and G. Duscher, Chemical composition  changes across the interface of amorphous LaScO3 on Si (001), Applied  Physics Letters 91, 152901 (2007).

[34]S. Yarmolenko, S. Neralla, D. Kumar,  J. Sankar, Fude Liu, and G. Duscher, Role of Fe and Ni nanoparticles  on mechanical properties of alumina thin films deposited by laser ablation,  Mater. Res. Soc. Symp. Proc. 890, 0890-Y08-38.1 (2006). Also, in Surface  Engineering for Manufacturing Applications by eds. S.J. Bull, W.J. Meng, P.R. Chalker,  S.C. Chen, and R. Maboudian, Materials Research Society, 2006.

[35]Fude Liu*, F. Cosandey, X. Zhou, and B.H. Kear,  Nanophase decomposition in plasma sprayed ZrO2(Y2O3)/Al2O3 coatings, Proceedings of the 105th Annual Meeting & Exposition of the American Ceramic  Society, Nashville, TN, April 2003. Also, in Ceramic Nanomaterials and  Nanotechnology II by eds. M.R. Guire, M.Z. Hu, Y. Gogotsi, and S.W. Lu,  Wiley-American Ceramic Society, 2004.