彭鹏

人物经历学习经历

2010.09-2014.04:加拿大滑铁卢大学先进材料连接中心/纳米技术研究所/ 机电工程学院，博士

2007.09-2010.07: 中国地质大学（北京），材料科学与工程，硕士

2003.09-2007.07: 中国地质大学（北京），材料科学与工程，本科[1]

工作经历

2015.10至今：北京航空航天大学机械工程及自动化学院“卓越百人”副教授

2013.5-2013.6: 英国剑桥大学，电子工程系，访问

2014-2015: 加拿大滑铁卢大学先进材料连接中心/纳米技术研究所，博士后研究员[1]

社会任职

长期担任多个国际杂志与国际会议的审稿人：

ACS Applied Materials & Interfaces, Nanotechnology, Journal of Electronic Materials, Journal of Nanoparticle Research, Physica Scripta, Journal of Physics D: Applied Physics, International Journal of Applied Ceramic Technology,Science and Engineering of Composite Materials,NRL Advances,Nanoscale and Nanotechnology, IEEE Journal of Photovoltaics期刊的论文审稿人

TMS（矿物、金属和材料协会）会员[1]

研究领域

先进材料微纳连接：微纳尺度材料连接技术；微纳连接界面的物理化学反应

微纳连接制造及关键器件：微纳材料与器件的制造；增材制造技术

材料冶金：金属材料加工工程中的冶金过程；高温合金材料

低维度功能/结构材料应用：压电/光化学/超塑性/超硬耐磨的二维薄膜和一维纳米线的开发与应用[1]

获得荣誉

卓越百人计划2015

University of Waterloo Graduate Scholarship Research award 2011

国家公派奖学金 2010

木村四郎雄奖2010

中国地质大学优秀毕业生2010[1]

开授课程

-工程材料学

-焊接冶金

其他作品教学及科研成果

已发表期刊论文30篇，其中SCI期刊收录论文23篇，EI收录论文2篇。总引用次数340余次。

代表性论文

[1] L. Lin, L. Liu, P. Peng, G. Zou, W. Duley, Y. Zhou. In situ nanojoining of Y- and T- shaped silver nanowires structures using femtosecond laser radiation, Nanotechnology 2016 accepted.

[2] Q. Jia, W. Guo, P. Peng, M. Li, Y. Zhu, G. Zou. Microstructure- and Strain Rate-Dependent Tensile Behavior of Fiber Laser-Welded DP980 Steel Joint. Journal of Materials Engineering and Performance, Journal of Materials Engineering and Performance 2016, DOI: 10.1007/s11665-015-1864-8.

[3] L. Liu, D. Shen, G. Zou, P. Peng, Y. Zhou. Cold welding of Ag nanowires by large plastic deformation, Scripta Materialia 2016, 114, 112-116.

[4] P. Peng*, A. Hu, A. P. Gerlich, G. Zou, L. Liu, Y. Zhou. Low-temperature joining of silver nanomaterials: processes, properties and applications, ACS Applied Materials & Interfaces 2015, 7 (23), 12597–12618.

[5] P. Peng*, A. Hu, A. P. Gerlich, Yangai Liu, Y. Zhou. Self-generated Local Heating Induced Nanojoining for Room Temperature Pressureless Flexible Electronic Packaging, Scientific Reports2015, 5, 9282.

[6] P. Peng*, P. He, G. Zou, L. Liu, Y. Zhou. Interfacial Nano-mechanical Properties of Copper Joints Bonded with Silver Nanopaste near Room Temperature. Materials Transactions 2015, 56 (7), 1010-1014.

[7] W. Guo, Z. Zeng, X. Zhang, P. Peng, S. Tang. Low-temperature sintering bonding using silver nanoparticle paste for electronics packaging. Journal of Nanomaterials 2015, doi:10.1155/2015/897142

[8] P. Peng*, L. Liu, A. P. Gerlich, A. Hu, Y. Zhou. Self-Oriented Nanojoining of Silver Nanowires via Surface Selective Activation, Particle & Particle Systems Characterization 2013, 30 (5), 420-426.

[9] P. Peng*, H. Huang, A. Hu, A. P. Gerlich, Y. Zhou. Functionalization of Silver Nanowire Surfaces with Copper Oxide for Surface-Enhanced Raman Spectroscopic Bio-Sensing, Journal of Materials Chemistry2012, 22(31), 15495-15499.

[10] P. Peng, A. Hu, H. Hong, A. P. Gerlich, B. Zhao, Y. Zhou. Room-temperature pressureless bonding with silver nanowire paste: towards organic electronic and heat-sensitive functional devices packaging, Journal of Materials Chemistry 2012, 22(31), 12997-13001.

[11] P. Peng, A. Hu, W. Zheng, P. Su, D. He, K. O. Oakes, A. Fu, R. Han, S. L. Lee, J. Tang, Y. N. Zhou. Microscopy Study of Snail Trail Phenomenon on Photovoltaic Modules, RSC Advances2012, 2 (30), 11359 –11365.

[12] P. Peng*, A. Hu, B. Zhao, A. P. Gerlich, Y. Zhou. Reinforcement of Ag nanoparticle paste with nanowires for low temperature pressureless bonding, Journal of Materials Science2012, 47, 6801-11.

[13] P. Peng*, A. Hu, Y. Zhou. Laser sintering silver nanoparticle thin films: microstructure and optical properties, Applied Physics: A2012, 108(3), 685-91.

[14] Y. G. Liu, P. Peng, M. Fang, Z. Huang. Y3? xErxAl5O12 Aluminate Ceramics: Preparation, Thermal Properties and Theoretical Model of Thermal Conductivity, Advanced Engineering Materials2012, 14 (3), 170-177.

[15] L. Liu, P. Peng, A. Hu, G. Zou, W. W. Duley, N. Zhou. Highly localized heat generation by femtosecond laser induced plasmon excitation in Ag nanowires, Applied Physics Letters2013, 102, 073107.[1]