潘志亮
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博士,教授,博士生导师,硕士生导师
电子邮箱:zpan@guet.edu.cn
所属团队:微电子封装技术团队
研究方向:纳米结构材料,电子封装材料,结构材料变形失效破坏理论
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概况
潘志亮,博士,教授,博士生导师。2012年博士毕业于美国北卡罗莱纳大学夏洛特分校机械工程专业。2012-2019年间分别在美国康奈尔大学,加州大学欧文分校,佛蒙特大学从事纳米结构材料多尺度模拟研究工作。2019年12月作为海外高层次急需紧缺人才全职引进桂林电子科技大学。擅长利用先进的多尺度模拟计算技术(如第一性原理计算,分子动力学,有限元模拟等)研究纳米结构材料的力学行为与变形失效破坏机制,提出并实现可以提高材料性能的策略与技术路线。在利用界面结构调控改进纳米结构材料的力学性能方面做出了突出的成果。主持国家自然科学基金面上项目一项,广西基金重点或重大项目两项。至今已发表SCI论文40余篇,包括SCI一区顶级期刊近20篇,《自然》子刊4篇,谷歌学术引用近2000次。目前担任自然子刊《Nature Communications》,一区顶级期刊《Acta Materialia》、《Advanced Materials》等20余本国际著名知名期刊审稿人,并获得SCI一区顶级期刊,金属研究类顶级期刊《Acta Materialia》杰出审稿人奖和《Computational Materials Science》杰出审稿人奖。本人科研注重力学与材料交叉学科,通过大规模数值计算进行前沿基础理论研究,有很多国际前沿研究课题供学生选择,近1000个计算核心的高性能计算机可以满足研究课题的各种大规模理论计算需求。课题组学术气氛浓厚,学术思想自由,指导风格中西结合,是科学研究的理想课题组。欢迎野心勃勃,善于思考,喜欢编程,勤奋努力,基础扎实的物理,力学,材料,机械等相关专业的同学报考。研究生招生要求1.个人品质:内心阳光,理性善良,热爱生活,关心家人,尊敬师长,团结同学,勤奋踏实。2.个人愿景:有野心肯努力,不愿虚度光阴,不负大好年华。愿意自我驱动,实现自我提升。3.个人能力:热爱科学研究,具备较强的创新思维,逻辑思维,独立思考和解决问题的能力。面对压力和挫折,能够在导师的指导下独立完成科研工作。具有良好的团队合作精神和交流能力。4.学术背景:数学功底好,学过材料类,力学类,或物理类课程,具有科研经历,发表过学术文章,或具有编程经验者优先考虑。5. 申请材料:申请信,简历,成绩单,相关证明
教育经历
2007.01-2012.05; 美国北卡罗莱纳大学夏洛特分校 博士,机械工程2003.09-2006.07; 西北工业大学 硕士,固体力学1999.09-2003.07; 西北工业大学 学士,飞行器设计与工程
工作经历
2019.12-至今: 桂林电子科技大学,教师,电子封装系2016.10-2019.10;佛蒙特大学,博士后,机械工程系2013.09-2016.09;加州大学欧文分校,博士后,机械与航空工程系2012.06-2013.06;康奈尔大学,博士后,土木与环境工程学院2007.01-2012.05;北卡罗莱纳大学夏洛特分校,研究助理,机械工程与工程科学系2006.07-2006.12;华为技术有限公司,软件工程师,接入网研发部
学术兼职
广西机械工程学会会员学术期刊审稿人Nature Communications (自然子刊,IF = 14.919) Advanced Materials (一区顶级期刊,IF = 32.086)Acta Materialia (一区顶级期刊,IF = 8.203)Physical Review Letters (一区顶级期刊,IF = 9.185) Nanoscale (一区顶级期刊,IF = 7.190)International Journal of Plasticity (一区顶级期刊,IF = 5.668)Scripta Materialia (IF = 5.079) Journal of Alloys and Compounds (IF = 4.650)Computational Materials Science (IF = 2.489) Journal of Materials Science (IF = 3.011)Materials Science and Engineering A (IF = 3.530) Mechanics of Materials (IF = 2.769)Nanotechnology (IF = 3.414) Materials and Design (IF = 4.886) Advanced Engineering Materials (IF = 3.500) Philosophical Magazine (IF = 1.778) Journal of Physics: Condensed Matter (IF = 2.711)Metallurgical and Materials Transactions A (IF = 1.915)Modelling and Simulation in Materials Science and Engineering (IF = 1.837)
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课程教学
本科生课程:工程图学1,工程图学B,半导体物理与材料,半导体物理研究生课程:材料科学与检测新技术,高等工程力学,机械前沿技术(力学前沿)
人才培养
已毕业硕士:马宗益:2023年毕业,桂林电子科技大学北海校区,讲师韦光斌:2024年毕业,广州广合科技股份有限公司,助理工程师
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研究方向
纳米结构材料,电子封装材料,结构材料变形失效破坏理论
科研项目
广西自然科学基金重点基金项目,2022-2026,30万,课题负责人; 国家自然科学基金面上基金项目,2022-2025,61万,课题负责人。 广西科技重大专项,2024-2027,600万,课题负责人 |
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学术论文
谷歌学术: 1956 Citations (h-index = 25, i10-index = 33)
· S. Xue, Z. Huang, M. Yun, D. Liu, Zhiliang Pan, and D. Yang, The adsorption characteristics of MoS2–CuO heterojunction to polar gas molecules (CO, NO and NO2): A first–principle study, Applied Surface Science, vol. 610, p. 155564, 2023/02/01 · S. He, Y.-A. Shen, B. Xiong, F. Huo, J. Li, J. Ge, Zhiliang Pan, et al., Behavior of Sn-3.0Ag-0.5Cu solder/Cu fluxless soldering via Sn steaming under formic acid atmosphere, Journal of Materials Research and Technology, vol. 21, pp. 2352-2361, 2022/11/01 · P. Liang, Zhiliang Pan, L. Tang, G. Zhang, D. Yang, S. He, et al. (2022, Molecular Dynamics Simulation of Sintering Densification of Multi-Scale Silver Layer. Materials 15(6) · Z. Yu, K. Yu, J. Wei, Q. Lu, Y. Cheng, and Zhiliang Pan, Improving electrode properties by sputtering Ge on SiO anode surface, Ceramics International, vol. 48, pp. 26784-26790, 2022/09/15 · Z. Yu, L. Zhou, Y. Cheng, K. Wei, G. Qu, N. Hussain, et al., Preset Lithium Source Electrolyte Boosts SiO Anode Performance for Lithium-Ion Batteries, ACS Sustainable Chemistry & Engineering, vol. 10, pp. 10351-10360, 2022/08/08 · Qi Zhu, Zhiliang Pan, Zhiyu Zhao, Guang Cao, Langli Luo, Chaolun Ni, Hua Wei, Ze Zhang, Frederic Sansoz, and Jiangwei Wang, Defect-driven selective metal oxidation at atomic scale, Nature Communications, vol 12, pp 558, January 2021 (共同一作,中科院1区TOP,IF = 14.919) · Xing Ke, Jianchao Ye, Zhiliang Pan, Jie Geng, Matt F. Besser, Fang Liu, Dongxia Qu, Jaime Marian, Enrique Martinez, Alfredo Caro, Ryan T. Ott, Frederic Sansoz, and Y. Morris Wang, Exploring the strength limit of interface-controlled metallic nanomaterials, Nature Materials, vol 18, pp. 1207-1214, November 2019 (中科院1区TOP,IF = 39.286) · Amirhossein Khalajhedayati, Zhiliang Pan, and Timothy J. Rupert, Manipulating the interfacial structure of nanomaterials to achieve a unique combination of strength and ductility, Nature Communications, vol 7, pp. 10802, Feb 2016 (中科院1区TOP,IF = 14.919) · Lin Jiang, Mingyu Gong, Jian Wang, Zhiliang Pan, Xin Wang, Dalong Zhang, Yinmin Wang, Timothy Rupert, Irene J. Beyerlein, Jim Ciston, Andrew M. Minor, Mingjie Xu, Xiaoqing Pan, Subhash Mahajan, Enrique J. Lavernia, Julie M. Schoenung, Visualization and Validation of Twin Nucleation and Early-stage Growth in Magnesium, Nature Communications, vol 13(1), pp 20, January 2022. (中科院1区TOP,IF = 14.919) · Pulkit Garg, Zhiliang Pan, Vladyslav Turlo, and Timothy J. Rupert. Segregation Competition and Complexion Coexistence within a Polycrystalline Grain Boundary Network. Acta Materialia vol 218 pp. 117213, October 2021 (共同一作,中科院1区TOP, IF = 8.203) · Yan Cheng, Kun Wei, Zhaozhe Yu, Dianyuan Fan, Dong Liang Yan, Zhiliang Pan, and Bingbing Tian. Ternary Si–Sio–Al Composite Films as High-Performance Anodes for Lithium-Ion Batteries. ACS Applied Materials & Interfaces vol 13, pp. 34447-56, July 2021 (共同通讯,中科院1区TOP, IF = 8.758) · Zhiliang Pan and Frederic Sansoz, Heterogeneous solute segregation suppresses strain localization in nanocrystalline Ag-Ni alloys, Acta Materialia, vol. 200, pp. 91-100, November 2020. (中科院1区TOP, IF = 8.203) · Zhiliang Pan and Timothy J. Rupert, Amorphous intergranular films as toughening structural features, Acta Materialia, vol 89, pp. 205-214, May 2015 (中科院1区TOP, IF = 8.203) · Zhiliang Pan, Weihua Yin, Suveen N. Mathaudhu, Laszlo J. Kecskes, K. T. Hartwig, and Q. Wei, Microstructural Evolution and Mechanical Properties of Niobium Processed by Equal Channel Angular Extrusion up to 24 Passes, Acta Materialia, vol. 60, pp. 2310-2323, March 2012 (中科院1区TOP, IF = 8.203) · Zhiliang Pan, Yulong Li, and Q. Wei, Tensile properties of nanocrystalline tantalum from molecular dynamics simulations, Acta Materialia, vol. 56, pp. 3470-3480, August 2008 (中科院1区TOP, IF = 8.203) · Zhiliang Pan and Timothy J. Rupert, Effect of grain boundary character on segregation-induced structural transitions, Physical Review B, vol 93, pp. 134113, April 2016 (中科院2区TOP, IF = 3.795) · Zhiliang Pan and Timothy J. Rupert, Formation of ordered and disordered interfacial films in immiscible metal alloys, Scripta Materialia, vol 130, pp. 91-95, March 2017 (中科院2区TOP, IF =4.150) · Zhiliang Pan, Yazhou Guo, S. N. Mathaudhu, Laszlo J. Kecskes, K. T. Hartwig, and Q. Wei, Quasi-static and dynamic mechanical properties of commercial-purity tungsten processed by ECAE at low temperatures, Journal of Materials Science, vol. 43, pp. 7379-7384, December 2008 (中科院2区TOP, IF =3.011) · Zhiliang Pan and Timothy J. Rupert, Spatial variation of short-range order in amorphous intergranular complexions, Computational Materials Science, vol 131, pp. 62-68, April 2017 (中科院3区, IF = 2.489) · Zhiliang Pan, Laszlo J. Kecskes, and Qiuming Wei, The nature behind the preferentially embrittling effect of impurities on the ductility of tungsten, Computational Materials Science, vol. 93, pp. 104-111, October 2014 (中科院3区, IF = 2.489) · Zhiliang Pan and Timothy J. Rupert, Damage nucleation from repeated dislocation absorption at a grain boundary, Computational Materials Science, vol. 93, pp. 206-209, October 2014 (中科院3区, IF = 2.489) · Zhiliang Pan, Valery Borovikoy, Mikhail Mendelev, and Frederic Sansoz, Development of a semi-empirical potential for simulation of Ni solutes segregation into grain boundaries in Ag, Modelling and Simulation in Materials Science and Engineering, vol 26, pp 075004, September 2018 (Featured on the journal cover) (中科院3区, IF =1.837) · Zhiliang Pan and Timothy J. Rupert, Mechanisms of near-surface structural evolution in nanocrystalline materials during sliding contact, Physical Review Materials, vol 1, pp 043602, September 2017. (中科院3区, IF =2.926) · Q. Wei, Zhiliang Pan, Xiaolei Wu, B. E. Schuster, Laszlo J. Kecskes, and R. Z. Valiev, Microstructure and mechanical properties at different length scales and strain rates of nanocrystalline tantalum produced by high-pressure torsion, Acta Materialia, vol. 59, pp. 2423-2436, April 2011 (中科院1区TOP, IF = 8.203) · Silu Liu, Zhiliang Pan, Yonghao Zhao, Troy Topping, Ruslan Z. Valiev, Xiaozhou Liao, Enrique J. Lavernia, Yuantian Zhu, and Qiuming Wei, Effect of strain rate on the mechanical properties of a gum metal with various microstructures, Acta Materialia, vol 132, pp. 193-208, June 2017 (中科院1区TOP, IF = 8.203) · Jason Panzarino, Zhiliang Pan, Timothy J. Rupert, Plasticity-induced restructuring of a nanocrystalline grain boundary network, Acta Materialia, vol 120, pp. 1, Nov 2016 (中科院1区TOP, IF = 8.203) · K.W.K. Leung, Zhiliang Pan, and D.H. Warner, Atomistic-based predictions of crack tip behavior in silicon carbide across a range of temperatures and strain rates, Acta Materialia, vol. 77, pp. 324-334, September 2014 (中科院1区TOP, IF = 8.203) · KWK Leung, Zhiliang Pan, and DH Warner, Kohn-Sham density functional theory prediction of fracture in silicon carbide under mixed mode loading, Modelling and Simulation in Materials Science and Engineering, vol 24, pp. 035004, Feb 2016 (中科院3区, IF =1.837) · Zaiwang Huang, Zhiliang Pan, Haoze Li, Qiuming Wei, and Xiaodong Li, Hidden energy dissipation mechanism in nacre, Journal of Materials Research, vol. 29, pp. 1573-1578, July 2014 (中科院4区, IF =1.717) · Silu Liu, Yazhou Guo, Zhiliang Pan, X.Z. Liao, E.J. Lavernia, Y.T. Zhu, Q.M. Wei, Yonghao Zhao, Microstructural softening induced adiabatic shear banding in Ti-23Nb-0.7Ta-2Zr-O gum metal, Journal of Materials Science & Technology, vol 54, pp. 31-39, October 2020 (中科院1区TOP, IF = 6.155) · Jialin Liu, Zaiwang Huang, Zhiliang Pan, Qiuming Wei, Xiaodong Li, Yue Qi, Atomistic origin of deformation twinning in biomineral aragonite, Physical Review Letters, vol 118, pp. 105501, March 2017 (中科院1区TOP, IF = 8.843) · W.H. Yin, F. Xu, O. Ertorer, Zhiliang Pan, X.Y. Zhang, L.J. Kecskes, E.J. Lavernia, and Q. Wei, Mechanical behavior of microstructure engineered multi-length-scale titanium over a wide range of strain rates, Acta Materialia, vol. 61, pp. 3781-3798, June 2013 (中科院1区TOP, IF = 8.203) · Y.Z. Guo, N.A. Behm, J.P. Ligda, Y.L. Li, Zhiliang Pan, Z. Horita, and Q. Wei, Critical issues related to instrumented indentation on non-uniform materials: Application to niobium subjected to high pressure torsion, Materials Science and Engineering: A, vol. 586, pp. 149-159, December 2013 (中科院2区TOP, IF = 3.530) · B.E. Schuster, J.P. Ligda, Zhiliang Pan, and Q. Wei, Nanocrystalline refractory metals for extreme condition applications, JOM, vol. 63, pp. 27-31, December 2011 (中科院3区, IF = 2.103) · Zaiwang Huang, Haoze Li, Zhiliang Pan, Qiuming Wei, and Xiaodong Li, Uncovering high-strain rate protection mechanism in nacre, Scientific Reports, 1, 148, November 2011 (中科院3区, IF = 4.131) · Guo Yazhou, Yulong Li, Zhiliang Pan, Fenghua Zhou, and Q. Wei, A numerical study of microstructure effect on adiabatic shear instability: Application to nanostructured/ultrafine grained materials, Mechanics of Materials, vol. 42, pp. 1020-1029, November 2010 (中科院3区, IF = 2.769) 学术著作
知识产权
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人才称号
各类获奖
杰出审稿人 Acta Materialia(SCI一区顶级期刊) 2018 杰出审稿人 Computational Materials Science 2018 个人荣誉
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