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武漢理工大學材料科學與工程學院研究生導師:李蓓
一、姓名:李蓓
二、基本情況:
1、出生年月:1985年6月
2、學 位:博士
3、職 稱:副教授、碩導
4、工作院系:材料科學與工程學院
三、教育經歷(從大學開始):
1. 2011.01-2015.06,南洋理工大學 ,機械與航空學院,工程力學,博士
2. 2007.09-2009.06,華中科技大學 ,材料科學與工程學院,材料加工工程,碩士
3. 2003.09-2007.06,華中科技大學 ,材料科學與工程學院,材料成形及控制,學士
四、工作經歷:
1. 2015.12-至今,武漢理工大學,材料科學與工程學院,材料成型與加工工程,副教授
2. 2015.06-2015.12,新加坡科技研究局,高性能計算研究所,工程力學,研究員
3. 2010.04-2011.01,南洋理工大學,機械與航空學院,工程力學,研究助理
4. 2009.08-2010.02,武漢益模軟件有限公司,項目負責人
五、研究領域(不多于3個):
1. 分子動力學模擬、第一性原理計算
2. 金屬、高分子及生物材料的結構、性能、成型工藝等計算研究
3. 潤滑劑薄膜及摩擦學研究
六、 科研項目(不多于5項):
1. 2017.01-2019.12,國家自然科學基金青年科學基金,負責人
2. 2018.01-2020.12,國家自然科學基金青年科學基金,主要參與人
3. 2017.01-2018.12,華中科技大學材料成形與模具技術國家重點實驗室開放基金,負責人
4. 2017.01-2018.10,武漢理工大學新教師自由探索研究基金,負責人
5. 2016.06-2017.05,ESI學科水平提升計劃,負責人
6. 2016.01-2017.10,武漢理工大學新教師自主創新研究基金,負責人
7. 2016.01-目前,武漢理工大學科研啟動基金,負責人
8. 2015.06-2016.03,新加坡高性能計算研究院工業項目,“Computational Models for Melanosomes and Cosmetic Formulation Interaction, Disruption, and Penetration”,30萬新幣,主要參與者
9. 2015.06-2016.01,新加坡高性能計算研究院工業項目,“Computational Models for Skin Care and Cosmetic Formulation, Solubilisation, Dewetting and Disruption – Phase 2”,30萬新幣,參與者
10. 2010.04-2013.08,新加坡教育部資助項目,“Molecular Dynamics Simulation of Head Disk Interface in Energy Assisted Magnetic Recording”, 約21萬新幣,主要參與者
七、代表性論文及著作(不多于10項):
1. G. Chen, A.N. Li, H.X. Liu, S.Y. Huang, Z.Q. Zhang, W. Liu, C. Zha, B. Li⁎, Z.Z. Wang⁎, “Mechanical and dynamic properties of resin blend and composite systems: A molecular dynamics study”, Composite Structures 190, pp. 160-168, 2018.
2. B. Li, “Coarse-grained molecular dynamics simulation of DPPC lipid bilayers: Size effect on structural and dynamic properties”, Communications in Computational Physics 23, pp. 1476-1487, 2018.
3. B. Li, Q.B. Chen, S.Y. Huang, H.X. Liu, “Developing structure and thermodynamic properties-consistent coarse-grained model for random copolymer systems”, Polymer 123, pp. 107-120, 2017.
4. B. Li, Y. Cheng, J.J. Yeo, N. Sridhar, Y.W. Zhang, “Structural and dynamic properties of different DPPC lipid membranes using a coarse-grained model”, Journal of Controlled Release 259, pp. e10, 2017.
5. B. Li, and C.H. Wong, “Molecular dynamics studies of lubricant depletion under moving laser heating: effects of laser power and film thickness”, Tribology International 92, pp. 38-46, 2015.
6. B. Li and C.H. Wong, “Molecular dynamics study of ultrathin lubricant films with functional end groups: thermal-induced desorption and decomposition”, Computational Materials Science 93, pp. 11−14, 2014.
7. B. Li and C.H. Wong, “Molecular dynamics simulation of thermal-induced local heating and depletion of ultrathin perfluoropolyether lubricant under moving laser heating”, Tribology Letters 55, pp. 303−313, 2014.
8. B. Li and C.H. Wong, “Lubricant depletion due to moving laser heating: a molecular dynamics simulation study”, Tribology International 80, pp. 41−48, 2014.
9. B. Li, C.H. Wong and Q.B. Chen, “Evolution of diffusion-related degradation of polymeric lubricant under laser heating: a molecular dynamics simulation study”, IEEE Transactions on Magnetics 50, pp. 1−9, 2014.
10. B. Li and C.H. Wong, "Depletion kinetics of perfluoropolyether films with functional end groups using molecular dynamics simulation," Polymer 54, pp. 6008−6018, 2013.
11. B. Li, C.H. Wong and Q.B. Chen, "Kinetics of lubricant desorption and decomposition under heat
treatment: a molecular dynamics study," Soft Matter 9, pp. 700−708, 2013.
12. Y. Li, C.H. Wong, B. Li, S.K. Yu, W. Hua and W.D. Zhou, "Lubricant evolution and depletion under laser heating: a molecular dynamics study," Soft Matter 8, pp. 5649−5657, 2012.
13. C.H. Wong, B. Li, S.K. Yu, W. Hua and W.D. Zhou, "Molecular dynamics simulation of lubricant redistribution and transfer at near-contact head-disk interface," Tribology Letters 43, pp. 89−99, 2011.
八、聯系方式:
1、Tel:
2、E-mail:libei@whut.edu.cn
3、工作地址(實驗室):武漢理工大學馬房山校區材料大樓408室
第二部分:英文簡介(將中文簡介翻譯成英文版本)
1. Name: Li Bei
11. Basic Information
1) Birth: June 1985
2) Degree: Ph.D.
3) Title: Associate Professor
4) School: Materials Science and Engineering
12. Education
1) Jan. 2011-June 2015, Nanyang Technological University (NTU), School of Mechanical and Aerospace Engineering, Ph.D.
5) Sep. 2007-June 2009, Huazhong University of Science and Technology (HUST), School of Materials Science and Engineering, M.Eng.
6) Sep. 2003-June 2007, Huazhong University of Science and Technology (HUST), School of Materials Science and Engineering, B.Eng.
13. Work Experience
1) Dec. 2015-present, Wuhan University of Technology (WHUT), School of Materials Science and Engineering, Associate Professor
7) Jun. 2015-Dec. 2015, Institute of High Performance Computing (IHPC), A*STAR, Singapore, Engineering Mechanics, Scientist
8) April 2010-Jan. 2011, Nanyang Technological University, School of Mechanical and Aerospace Engineering, Research Associate
9) Aug. 2009-Feb. 2010, Wuhan Eman Software Technology Co., Ltd., Project Leader
14. Research Interests (no more than 3 items)
1) Molecular dynamics simulation, first-principle calculation
2) Nanostructure and nanomaterials
3) Ultrathin lubricant films and tribology-related topics
15. Project Experience (no more than 5 items)
1) Jan. 2017-Dec. 2019, National Natural Science Foundation of China, Principle Investigator
2) Jan. 2018-Dec. 2020, National Natural Science Foundation of China, Main Contributor
3) Jan. 2017-Dec. 2018, Open Fund Project of State Key Laboratory of Materials Processing and Die & Mould Technology, Huazhong University of Science and Technology, Principle Investigator
4) Jan. 2017-Oct. 2018, Fundamental Research Funds for the Central Universities, Principle Investigator
5) Jun. 2016-May. 2017, Discipline Construction Project for ESI (Essential Science Indicators), Principle Investigator
6) Jan. 2016-Oct. 2017, Fundamental Research Funds for the Central Universities, Principle Investigator
7) Jan. 2016-present, Start-up funding for overseas talents in WHUT, Principle Investigator
8) June 2015-Mar. 2016, “Computational Models for Melanosomes and Cosmetic Formulation Interaction, Disruption, and Penetration” jointly funded (S$ 300,000) by IHPC , A*STAR, Singapore, and a leading MNC from the private sector, Main Contributor
10) June 2015-Jan. 2016, “Computational Models for Skin Care and Cosmetic Formulation, Solubilisation, Dewetting and Disruption – Phase 2” jointly funded (S$ 300,000) by IHPC , A*STAR, Singapore, and a leading MNC from the private sector, Contributor
11) Mar. 2010-Aug. 2013, “Molecular Dynamics Simulation of Head Disk Interface in Energy Assisted Magnetic Recording” funded (S$ 210,315) by Ministry of Education, Singapore, Main Contributor
16. Publications (no more than 10 items)
1) G. Chen, A.N. Li, H.X. Liu, S.Y. Huang, Z.Q. Zhang, W. Liu, C. Zha, B. Li⁎, Z.Z. Wang⁎, “Mechanical and dynamic properties of resin blend and composite systems: A molecular dynamics study”, Composite Structures 190, pp. 160-168, 2018.
2) B. Li, “Coarse-grained molecular dynamics simulation of DPPC lipid bilayers: Size effect on structural and dynamic properties”, Communications in Computational Physics 23, pp. 1476-1487, 2018.
3) B. Li, Q.B. Chen, S.Y. Huang, H.X. Liu, “Developing structure and thermodynamic properties-consistent coarse-grained model for random copolymer systems”, Polymer 123, pp. 107-120, 2017.
4) B. Li⁎, Y. Cheng, J.J. Yeo, N. Sridhar, Y.W. Zhang, “Structural and dynamic properties of different DPPC lipid membranes using a coarse-grained model”, Journal of Controlled Release 259, pp. e10, 2017.
5) B. Li, and C.H. Wong, “Molecular dynamics studies of lubricant depletion under moving laser heating: effects of laser power and film thickness”, Tribology International 92, pp. 38-46, 2015.
6) B. Li and C.H. Wong, “Molecular dynamics study of ultrathin lubricant films with functional end groups: thermal-induced desorption and decomposition”, Computational Materials Science 93, pp. 11−14, 2014.
7) B. Li and C.H. Wong, “Molecular dynamics simulation of thermal-induced local heating and depletion of ultrathin perfluoropolyether lubricant under moving laser heating”, Tribology Letters 55, pp. 303−313, 2014.
8) B. Li and C.H. Wong, “Lubricant depletion due to moving laser heating: a molecular dynamics simulation study”, Tribology International 80, pp. 41−48, 2014.
9) B. Li, C.H. Wong and Q.B. Chen, “Evolution of diffusion-related degradation of polymeric lubricant under laser heating: a molecular dynamics simulation study”, IEEE Transactions on Magnetics 50, pp. 1−9, 2014.
10) B. Li and C.H. Wong, "Depletion kinetics of perfluoropolyether films with functional end groups using molecular dynamics simulation," Polymer 54, pp. 6008−6018, 2013.
11) B. Li, C.H. Wong and Q.B. Chen, "Kinetics of lubricant desorption and decomposition under heat treatment: a molecular dynamics study," Soft Matter 9, pp. 700−708, 2013.
12) Y. Li, C.H. Wong, B. Li, S.K. Yu, W. Hua and W.D. Zhou, "Lubricant evolution and depletion under laser heating: a molecular dynamics study," Soft Matter 8, pp. 5649−5657, 2012.
13) C.H. Wong, B. Li, S.K. Yu, W. Hua and W.D. Zhou, "Molecular dynamics simulation of lubricant redistribution and transfer at near-contact head-disk interface," Tribology Letters 43, pp. 89−99, 2011.
17. Contact information
1) Tel:
2) Email: libei@whut.edu.cn
3) Address: Materials building 408, West Campus, Wuhan University of Technology, 430070, Wuhan, P.R. China
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