姓名：张琪

邮箱：qzh.8628@stu.xjtu.edu.cn

研究方向：基于多物理场计算方法的石墨烯基材料纳米接触机理研究

教育背景：

2005.09-2009.07    西北农林科技大学     机械设计制造及自动化     学士

2009.09-2010.07    西安交通大学         机械设计及理论                硕士

2010.09-2012.10    西安交通大学         机械设计及理论                博士

2012.10-2013.10    日本东北大学         机械工程                         联合培养

2013.10至今       西安交通大学         机械设计及理论                   博士

研究成果：

SCI论文:

[1] Zhang Q, Diao DF, Yang L. Dangling bond induced cross-linking model in nanoscratched graphene layers, Surface and Coatings Technology, 2013, 237: 230-233.

[2] Zhang Q, Diao DF, Potential of Graphene Layer Controlling NanoWear during C60 Intrusion by Molecular Dynamics Simulation, Wear, 2013, 306(1-2):248-453.

[3] Zhang Q, Diao DF, Li P, Intrusion Simulation of a C60 Ball into Sliding Contact Space with Graphene Layered Surfaces, Rare Metal Materials and Engineering, 2012, 41:132-135.

[4] Zhang Q, Diao DF, Bai SD, Higuchi Y, Ozawa N, and Kubo M, Nanoscratching of multi-layer graphene by molecular dynamics simulations, Tribology International, submitted for publication, under revision.

[5] Wang H, Diao DF, Hirono S, Kamata T, Zhang Q, Method of ion irradiation-induced superhardness for carbon nanocrystalline films and interpreting with dangling-bond-induced cross-linking model, Physical Review Letters, submitted for publication, under revision.

会议论文:

[1] Zhang Q, Diao DF, Bai SD, Higuchi Y, Ozawa N, and Kubo M, Nanoscratching of multi-layer graphene by molecular dynamics simulations, World Tribology Congress 2013, Torino, Italy, September 8-13, 2013.

[2] Zhang Q, Diao DF, Bai SD, Higuchi Y, Ozawa N, and Kubo M, Computational Study of the Atomic Structure and Mechanical Properties in Nanoscratched Graphene Layers, Tribology Conference Tokyo 2013, May 20-22, 2013.

[3] Zhang Q, Diao DF, Yang L, Dangling bonds induced cross-linking model in nanoscratched graphene layers, 40th The International Conference on Metallurgical Coatings and Thin Films (ICMCTF), April 29-May 3, 2013.

[4] Zhang Q, Diao DF, Bai SD, Higuchi Y, Ozawa N, and Kubo M, Tribological Properties and Mechanism of Graphene by Computational Study, 40th Leeds-Lyon Symposium on Tribology & Tribochemistry Forum 2013, Lyon, France, 2013.

[5] Zhang Q, Diao DF, Li P, Intrusion Simulation of a C60 Ball into Sliding Contact Space with Graphene Layered, 6th China International Conference on Surface Engineering, Xi’an, China, May 10-13, 2011.

[6] Zhang Q, Diao DF, New Potential of Graphene Layer for Controlling Nano-Wear, International Tribology Conference 2011, Hiroshima, Japan, 10.30-11.03, 2011.

[7] Zhang Q, Diao DF, Potential of Graphene Layer for Controlling Nano-Wear, The China-Japan Joint Tribology Symposium between Xi’an Jiaotong University and Nagoya University 2011, Nagoya, Japan, 10.27-10.30, 2011.