博士生导师
硕士生导师
个人信息Personal Information
教师英文名称:Linmao Qian
学历:博士研究生毕业
学位:工学博士学位
办公地点:西南交通大学 摩擦学研究所
在职信息:在岗
毕业院校:清华大学
学科:机械制造及其自动化. 机械设计及理论
所在单位:机械工程学院
报考该导师研究生的方式
欢迎你报考钱林茂老师的研究生,报考有以下方式:
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2、如果你能获得所在学校的推免生资格,欢迎通过推免方式申请钱林茂老师研究生,可以通过系统的推免生预报名系统提交申请,并选择意向导师为钱林茂老师,老师看到信息后将和你取得联系,点击此处推免生预报名
3、参加全国硕士研究生统一招生考试报考钱林茂老师招收的专业和方向,进入复试后提交导师意向时选择钱林茂老师。
4、如果你有兴趣攻读钱林茂老师博士研究生,可以通过申请考核或者统一招考等方式报考该导师博士研究生。
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钱林 茂,田煜,温诗铸. "纳米摩擦学". 北京:科学出版社,2013年6月. 479页
Zhongrong Zhou, Haiyang Yu, Jing Zheng, Linmao Qian, Yu Yan. "Dental Biotribology", Springer New York, 2013, 177p. ISBN: 978-1-4614-4549-4 (Print) 978-1-4614-4550-0 (Online), DOI 10.1007/978-1-4614-4550-0.
温诗铸, 黄平, 刘莹, 钱林茂, 田煜, 刘宇宏. "界面科学与技术". 北京: 清华大学出版社, 2011年3月.
Linmao Qian, Jiaxin Yu, Bingjun Yu and Zhongrong Zhou. "Tangential Nanofretting and Radial Nanofretting", Chapter 7, pp. 241-258. in "Micro Electro Mechanical Systems (MEMS): Technology, Fabrication Processes and Applications", Editors: Britt Ekwall and Mikkel Cronquist, Nova Science Publishers Inc, 2010. ISBN: 9781608764747. Publication Date: 01 April 2010. USA.
孟永钢, 钱林 茂, 葛世荣, 张俊彦, 赵亚溥, 朱旻昊, 雷明凯, 田煜, 姚萍屏. "机械表面界面科学与摩擦学", pp136-161, 见"机械工程学科发展战略报告(2011-2020)" 第6章, 国家自然科学基金委员会工程与材料科学部主编, 北京: 科学出版社, 2010年11月.
胡元中, 钱林 茂, 张向军, 张朝辉. "摩擦学发展前沿" 第十一章"微纳摩擦学", pp233-265. 周仲荣, 雷源忠, 张嗣伟编, 北京: 科学出版社. 2006年4月. (4万余字)
Linmao Qian*, Bingjun Yu: "Adhesion Hysteresis" in Encyclopedia of Tribology, Editors: Q. Jane Wang, Yip Wah Chung, Springer New York, 2013, 4139p.
Linmao Qian*, Jiaxin Yu: "Friction Force Microscopy (FFM)" in Encyclopedia of Tribology, Editors: Q. Jane Wang,Yip Wah Chung, Springer New York, 2013, 4139p.
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一. 主持项目
国家重点研发计划项目“基于工业互联的网络协同制造集成技术与平台研发”(2020YFB1712200)
国家自然科学基金重大项目课题“纳米精度表面制造的材料去除机理”(51991373)
国防973计划课题: XX超滑的失效机理及长寿命、高可靠超滑界 面的可控制备(2015-2019)
国家杰出青年科学基金 (50625515): 微/纳摩擦学(2007-2010)
国家重大科研仪器设备研制项目 (51527901):“高分辨原位实时摩擦能 量耗散测量系统”子课题“微观摩擦表面能量探测平台研制”(2016-2020)
国防基础科研科学挑战专题“难加工金属材料复杂曲面高精度高完整性表面形成机理和成形机制”子项目 (TZ2018006-0101-04):“难加工金属材料-工具表界面微纳尺度力学行为、去除机理及显微组织结构演化规律”(2017-2020)
国家自然科学基金面上项目 (51375409): 单晶硅表面原子层状去除的行为与机理(2014-2017)
国家纳米制造重大研究计划追加项目 (91323103): 低损伤摩擦诱导纳米加工的原理及应用研究(2014-2014)
牵引动力国家重点实验室自主研究课题(重点) (2017TPL_Z02):面向超精密、低损伤高铁轴承表面的化学机械抛光机理及应用研究(2017-2019)
国家纳米制造重大研究计划集成项目 (91323302):“亚纳米精度表面制造基础研究”子课题“单晶硅表面原子级材料迁移机制及其量化表征”(2014 -2017)
国家自然科学基金应急管理项目 (51445014): NSFC机械工程学科 2014年度青年/地区科学基金项目启动会(2014-2015)
国家自然科学基金面上项目 (51175441): 单晶硅表面摩擦诱导化学磨损的行为、机理及控制研究(2012-2015)
国家纳米制造重大研究计划/培育项目 (90923017): 摩擦诱导构造纳米凸结构的原理及应用研究(2010-2012)
国家自然科学基金 (50575190): 纳动的运行行为和损伤机理研究(2006-2006)
国家自然科学基金青年基金 (50305029): 镍钛合金应力诱发相变下的微磨损机理研究(2004-2006)
四川省青年科技基金创新团队 (2010JQ0081): 人体生物摩擦学的关键科学问题研究(2011-2013)
教育部新世纪优秀人才支持计划 (NCET-04-0887): 微机电系统的关键摩擦学问题研究(2004-2007)
教育部博士点基金 (20050613023): 微电子机械系统纳动损伤与防护研究(2006-2008)
霍英东高等院校青年教师基金 (101053): 镍钛合金相变相关的微磨损机理研究(2006-2009)
四川省青年基金 (04ZQ026-004): 微驱动材料镍钛合金应力诱发相变下的微观变形和磨损机理(2005-2007)
四川省青年基金后续资助 (09ZQ026-085): 微机电系统应用中的摩擦学问题研究(2009-2011)
教育部留学回国人员科研启动基金项目(教外司留[2004]176号):镍/钛形状记忆合金的微观摩擦学性能研究(2004-2006)
西南交通大学创新研究团队 (2007IRT02): 人体环境下的生物摩擦学关键科学问题研究(2008-2011)
英国皇家学会和中国教育部联合资助的“中英高校科研合作项目”: 2008年8月18日 至9月14日 访问英国伯明翰大学(2008)
西南交通大学新兴交叉学科培育计划:微纳生物摩擦学创新平台(2014-2016)
西南交通大学国际合作基底-青苗计划:纳米摩擦学与微纳制造创新研究基地(2015-2018)
西南交通大学重点项目-学科引智平台建设计划 (X2016021): 纳米摩擦学与微纳制造创新研究基地(2016)
西南交通大学重点项目-科研专家项目 (X2016018): 半导体材料表面的原子级去除的行为及机理(2016)
二. 主研项目
国家自然科学基金创新研究群体 (50821063,50521503): 高速列车运行安全的关键科学技术问题研究(2006-2011)
国家973计划“高速列车安全服役关键基础问题研究”第四课题 (2007CB714704): 多模式耦合复杂微动失效机制及防护(2007-2011)
国家973计划“基于微纳制造的第三代基因测序系统的基础理论研究” 第四课题 (2011CB707604): 生物分子在纳通道中的输运及调控(2011-2015)
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授权30项,含美国发明专利2项,中国发明专利26项,中国实用新型专利2项。
Linmao Qian, Liang Jiang, Bin Lin, Jianbin Luo, Yushan Chen, Bin Li. “Methods for designing and processing a microcantilever-based probe with an irregular cross section applied in an ultra-low friction coefficient measurement at a nanoscale single-point contact”, 美国发明专利,授权专利号:US10739379B2, 授权公告日2020年8月11日.
Liang Jiang, Linmao Qian, Jianbin Luo, Bin Lin, Yushan Chen. “Numerically controlled rotary probe switching device based on environment-controllable atomic force microscope”, 美国发明专利,授权专利号:US10739377B2, 授权公告日2020年8月11日.
钱林茂,周仲荣,张爽,石心余,张静宜。“球形压头测量形状记忆合金相变特性的方法”,中国发明专利,申请日期:2007年9月18日,授权专利号:ZL200710050040.7;授权公告日:2009年11月18日。
钱林茂,周仲荣,张爽,朱旻昊,余丙军,石心余。“一种测试纳米厚度薄膜疲劳特性的试验方法”,中国发明专利,申请日期:2008年4月1日,授权专利号:ZL200810045100.0;授权公告日:2011年1月19日。
钱林茂,周仲荣,余丙军,余家欣。“一种基于摩擦诱导构造单晶硅表面纳米凸起结构的加工方法”,中国发明专利,申请日期:2009年5月13日,授权专利号:ZL200910059272.8;授权公告日:2012年5月9日。
钱林茂,宋晨飞,周仲荣,余家欣,余丙军,陈磊。“一种基于摩擦诱导的单晶石英表面选择性刻蚀方法”,中国发明专利,申请日期:2010年7月9日,授权专利号:ZL201010222382.4;授权公告日:2012年7月11日。
钱林茂,周仲荣,宋晨飞,余丙军,余家欣。“一种石英、玻璃材料表面的微纳米加工方法”,中国发明专利,申请日期:2009年12月3日,授权专利号:ZL200910216531.3;授权公告日:2013年2月13日。
钱林茂,宋晨飞,吴治江,郭剑,余丙军,周仲荣。“一种多点接触模式下的大面积纳米压印硅模具加工方法”,中国发明专利,申请日期:2012年7月10日,授权专利号:ZL201210237432.5;授权公告日:2013年12月11日。
钱林茂,吴治江,余丙军,宋晨飞,周仲荣。“一种多点接触模式下的大面积摩擦诱导微米级加工设备”,中国发明专利,申请日期:2012年7月10日,授权专利号:ZL201210236729.X;授权公告日:2015年2月5日。
钱林茂,吴治江,余丙军,郭剑,宋晨飞,周仲荣。“一种多点接触模式下的大面积硅表面织构化加工方法”,中国发明专利,申请日期:2012年7月10日,授权专利号:ZL201210237442.9;授权公告日:2015年2月9日。
钱林茂、陈磊、吴治江、余丙军、周仲荣。“一种用于大面积摩擦诱导微/纳米加工的多针尖阵列的制作方法”,中国发明专利,申请日期:2012年7月17日,授权专利号:ZL201210246472.6;授权公告日:2015年3月9日。
钱林茂,郭剑,陈磊,余丙军,宋晨飞。“基于摩擦化学诱导刻蚀的单晶硅表面无损伤纳米加工方法”,中国发明专利,申请日期:2013年12月27日,授权专利号:ZL201310733086.4;授权公告日:2016年02月03日。
钱林茂,郭剑,余丙军,王晓东,宋晨飞。“基于摩擦诱导选择性刻蚀的氮化硅膜/硅微纳米加工方法”,中国发明专利,申请日期:2013年12月27日,授权专利号:ZL201310732868.6;授权公告日:2016年02月03日。
钱林茂,唐鹏,宋晨飞,余丙军,郭剑。“基于摩擦诱导选择性刻蚀的砷化镓表面微纳米加工方法”,中国发明专利,申请日期:2013年12月27日,授权专利号:ZL201310732778.7;授权公告日:2016年3月02日。
钱林茂,杨亚军,陈诚,陈磊,何洪途,王晓东。“一种用于原子力显微镜的气氛控制系统”,中国发明专利,申请日期:2014年1月9日,授权专利号:ZL201410009253.5;授权公告日:2016年4月22日。
钱林茂,王晓东,王冕,陈磊,余丙军,何洪途。“一种可应用于酸碱环境中的原子力显微镜液下针尖支架”,中国发明专利,申请日期:2013年10月16日,授权专利号:ZL201310486043.0;授权公告日:2016年8月24日。
钱林茂,陈家良,余丙军,张超杰,金晨宁,汪红波,陈诚。“平面度自补偿的大面积微加工用多针尖阵列制备方法”,中国发明专利,申请日期:2016年4月6日,授权专利号:ZL201610207578.3;授权公告日:2018年1月23日。
钱林茂,宋晨飞,余丙军,陈磊,唐鹏。“一种砷化镓表面量子点形核位置的低损伤加工方法”,中国发明专利,申请日期:2013年12月27日,授权专利号:ZL201310732192.0;授权公告日:2017年12月22日。
钱林茂,宋晨飞,周仲荣,余丙军,陈磊,郭剑。“一种基于摩擦诱导选择性刻蚀的玻璃表面纳米加工方法”,中国发明专利,申请日期:2011年12月1日,授权专利号:ZL201110392803.2;授权公告日:2018年4月27日。
钱林茂,汪红波,蒋淑兰,余丙军,陈磊,李斌。“基于微悬臂投影的光电式气敏传感器”,中国发明专利,申请日期:2016年6月1日,授权专利号:ZL201610392191.X;授权公告日:2018年10月19日。
钱林茂,汪红波,蒋淑兰,李斌,余丙军,陈磊。“基于微悬臂投影的光电式加速度传感器”,中国发明专利,授权专利号:ZL201610382181.8;授权公告日:2019年1月15日。
钱林茂, 江亮, 林斌, 雒建斌。“超低摩擦系数测量用异形截面悬臂梁探针设计及加工方法”,中国发明专利,授权专利号:ZL201711033488.8;授权公告日:2020年10月23日。
周仲荣,石心余,王艳,陈光雄,钱林茂,朱旻昊。“小载荷冲击磨损试验机”,中国发明专利,授权专利号:ZL200710048612.8;授权公告日:2009年6月3日。
余丙军, 张超杰, 钱林茂, 陈磊, 高健, 金晨宁。“一种真空下多探针摩擦磨损测试及原位形貌探测系统”,中国发明专利, 授权专利号: CN201510488002.4; 授权日期: 2018年1月16日。
余丙军,金晨宁,钱林茂,刘潇枭,肖晨,汪红波。“基于压痕诱导选择性刻蚀的单晶硅表面针尖的加工方法”,中国发明专利,授权专利号:ZL201610981246.0;授权日期:2020年11月24日。
陈磊,马韬,郭杰,贡健,石鹏飞,钱林茂。“一种基于原子力显微镜的旋转样品台装置”, 中国发明专利,授权专利号:ZL201910257419.8;授权公告日:2020年7月10日。
蒋淑兰,余丙军,钱林茂,韩京辉,钟方尚,王丰。“一种制备硅微纳分级结构的新方法”,中国发明专利,授权专利号:ZL201611160207.0,授权公告日:2018年11月13日。
江亮,林斌,钱林茂,邹乙镓,赵婷。“基于环境可控型原子力显微镜的数控旋转式探针切换装置”,中国发明专利,授权专利号:ZL201810637066.X;授权日期:2019年6月7日。
钱林茂,杨亚军,陈诚,陈磊,何洪途,王晓东。“用于原子力显微镜的气氛控制装置”,中国实用新型专利,申请日期:2014年1月9日,授权专利号:ZL201420011858.3;授权公告日:2014年5月6日。
余丙军,张超杰,钱林茂,陈磊,高健,陈家良。“一种简易的真空测温系统”,中国实用新型专利,授权专利号:ZL201520431474.1,授权公告日:2015年10月21日。
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学术成果
出版中英文专著3部,在Nature Communications (IF: 12.124)、Proceeding of the National Academy of Science of the United States of America (PNAS, IF: 9.661)、ACS Applied Materials & Interfaces (IF: 7.504)、Nanoscale (IF: 7.367)等期刊发表学术论文230余篇,SCI收录200篇,EI收录28篇。所发表论文 被SCI他 引2600余次,其中单篇论文最高SCI他引300余次。部分成果目录如下:
一. 期刊论文
[1] Lei Chen, Linmao Qian*. “Role of interfacial water in adhesion, friction, and wear—A critical review”, Friction 9(1), 1-28 (2021). (Cover Story)
[2] Bingjun Yu, Linmao Qian*. “Friction-induced nanofabrication: A review”, Chinese Journal of Mechanical Engineering 34(1), 32 (2021).
[3] Jian Gao, Peng Chen, Lei Wu, Bingjun Yu*, Linmao Qian*. “A review on fabrication of blazed gratings”, Journal of Physics D: Applied Physics 54, 313001 (2021).
[4] Yunhai Liu, Lei Chen*, Bangzhen Jiang, Yangqin Liu, Bin Zhang, Chen Xiao, Junyan Zhang, and Linmao Qian*. “Origin of low friction in hydrogenated diamond-like carbon films due to graphene nanoscroll formation depending on sliding mode: unidirection and reciprocation”, Carbon 173, 696-704 (2021).
[5] Hongbo Wang, Gaofeng Rao, Yang Wang, Xinchuan Du, Miao Zhang, Xuepeng Wang, Anjun Hu, Yin Hu, Jianwen Huang, Junwei Chu, Xianfu Wang*, Linmao Qian*, Jie Xiong*. “Low field gradient and highly enhanced plasmonic nanocavity array for supersensitive determination of multiple hazardous chemical residues”, The Journal of Physical Chemistry C 125(8), 4710-4719 (2021).
[6] Jian Guo, Jian Gao, Chen Xiao*, Lei Chen*, Linmao Qian. “Mechanochemical reactions of GaN–Al2O3 interface at the nanoasperity contact: Roles of crystallographic polarity and ambient humidity”, Friction, DOI: 10.1007/s40544-021-0501-9 (2021).
[7] Yunhai Liu, Yilong Jiang, Junhui Sun, Lei Wang, Yangqin Liu, Lei Chen*, Bin Zhang*, Linmao Qian, “Durable superlubricity of hydrogenated diamond-like carbon film against different friction pairs depending on their interfacial interaction”, Applied Surface Science 560, 150023 (2021).
[8] Ting Zhao, Liang Jiang*, Jinwei Liu, Hanqiang Wu, Na Qin, Linmao Qian. “Potassium persulfate as an efective oxidizer for chemical mechanical polishing of GCr15 bearing steel”, Journal of Applied Electrochemistry 51, 803–814 (2021).
[9] Changbang Deng, Liang Jiang*, Na Qin, Linmao Qian. “Effects of pH and H2O2 on the chemical mechanical polishing of titanium alloys”, Journal of Materials Processing Tech. 295, 117204 (2021).
[10] Yuanyuan Jiang, Chen Xiao*, Lei Chen*, Chenhui Zhang, Ningning Zhou, Linmao Qian, Jianbin Luo, Jinjin Li. “Temporary or permanent liquid superlubricity failure depending on shear-induced evolution of surface topography”, Tribology International 161, 107076 (2021).
[11] Jian Guo, Chen Xiao*, Jian Gao, Gengzhuo Li, Hanqiang Wu, Lei Chen, Linmao Qian. “Interplay between counter-surface chemistry and mechanical activation in mechanochemical removal of N-faced GaN surface in humid ambient”, Tribology International 159, 157004 (2021).
[12] Jian Guo, Chen Xiao*, Jian Gao, Jinwei Liu, Lei Chen, Linmao Qian. “Effect of native oxide layer on mechanochemical reaction at the GaN-Al2O3 interface”, Frontiers in Chemistry 9, 672240 (2021).
[13] Jian Gao, Chen Xiao*, Chengqiang Feng, Lei Wu, Bingjun Yu*, Linmao Qian, Seong H. Kim. “Oxidation-induced changes of mechanochemical reactions at GaAs–SiO2 interface: The competitive roles of water adsorption, mechanical property, and oxidized structure”, Applied Surface Science 548, 149205 (2021).
[14] Peng Chen, Lei Wu, Jian Gao, Chengqiang Feng, Bingjun Yu*, Linmao Qian. “An improved scanning probe-based lithography: site-controlled formation of self-assembled film as an etch mask”, Microelectronic Engineering, 111560 (2021).
[15] Liang Deng, Lei Wu, Peng Chen, Pei Zhang, Bingjun Yu*, Linmao Qian. “Effects of retracting velocities on the vibration of atomic force microscope probe on different surfaces”, Journal of Vibration Engineering & Technologies, DOI: 10.1007/s42417-021-00298-7 (2021).
[16] Chengqiang Feng, Lei Wu, Peng Chen, Tingting Yang, Bingjun Yu*, Linmao Qian. “Repairing slight damages on monocrystalline silicon surface by thermal annealing”, Materials Research Express 8(4), 045005 (2021).
[17] Lei Wu, Peng Chen, Liang Deng, Pei Zhang, Bingjun Yu*, Linmao Qian. “Effects of crystal planes on topography evolution of silicon surface during nanoscratch-induced selective etching”, Materials Science in Semiconductor Processing 124, 105606 (2021).
[18] Lei Wu, Pei Zhang, Chengqiang Feng, Jian Gao, Bingjun Yu*, Linmao Qian. “Scanning probe-based nanolithography: nondestructive structures fabricated on silicon surface via distinctive anisotropic etching in HF/HNO3 mixtures”, Journal of Materials Science 56(5), 3887-3899 (2021).
[19] Pengfei Shi, Junhui Sun, Yunhai Liu, Bin Zhang, Junyan Zhang, Lei Chen* and Linmao Qian*. “Running-in behavior of DLC/Al2O3 pair at nanoscale”, Friction 8, 1-10 (2020).
[20] Hongbo Wang, Wei Chen, Bo Chen, Yu Jiao, Yang Wang, Xuepeng Wang, Xinchuan Du, Yin Hu, Xiaoxue Lv, Yushuang Zeng, Xianfu Wang*, Linmao Qian*, and Jie Xiong*. “Interfacial capillary-force-driven self-assembly of monolayer colloidal crystals for supersensitive plasmonic sensors”, Small 16(8), 1905480 (2020).
[21] Chen Xiao, Chao Chen, Yangyang Yao, Hongshen Liu, Lei Chen*, Linmao Qian*, Seong H. Kim. “Nanoasperity adhesion of silicon surface in humid air: the roles of surface chemistry and oxidized layer structure”, Langmuir 36(20), 5483-5491 (2020).
[22] Chen Xiao, Changbang Deng, Peng Zhang, Linmao Qian*, Seong H. Kim*. “Interplay between solution chemistry and mechanical activation in friction-induced material removal of silicon surface in aqueous solution”, Tribology International 148, 106319 (2020).
[23] Chen Xiao, Jie Li, Jian Guo, Peng Zhang, Bingjun Yu, Lei Chen*, Linmao Qian. “Role of mechanically-driven distorted microstructure in mechanochemical removal of silicon”, Applied Surface Science 520, 146337 (2020). (Cover Story)
[24] Jinwei Liu, Liang Jiang*, Hanqiang Wu, Ting Zhao, Linmao Qian. “5-Methyl-1H-Benzotriazole as an effective corrosion inhibitor for ultra-precision chemical mechanical polishing of bearing steel”, Journal of the Electrochemical Society 167(13), 131502 (2020).
[25] Hanqiang Wu, Liang Jiang*, Xia Zhong, Jinwei Liu, Na Qin, Linmao Qian. “Exploring the role of --NH2 functional groups of ethylenediamine in chemical mechanical polishing of GCr15 bearing steel”, Friction, DOI: 10.1007/s40544-020-0460-6 (2020).
[26] Yong Peng, Fangshang Zhong, Linmao Qian, Shulan Jiang*. “Effects of ultraviolet/ozone irradiation on glassy-like carbon film for the bioMEMS applications”, Applied Surface Science 533, 147443 (2020).
[27] Yong Peng, Shulan Jiang*, Li Xia, Xiaolin Yin, Bingjun Yu, Linmao Qian. “Direct ink writing combined with metal-assisted chemical etching of microchannels for the microfluidic system applications”, Sensors and Actuators A: Physical 315, 112320 (2020).
[28] Jie Guo, Jian Gong, Pengfei Shi, Chen Xiao, Liang Jiang, Lei Chen*, Linmao Qian. “Study on the polishing mechanism of pH-dependent tribochemical removal in CMP of CaF2 crystal”, Tribology International 150, 106370 (2020).
[29] Xingqiao Deng, Shisong Wang, Hammi Youssef, Linmao Qian, Yucheng Liu*. “A combined experimental and computational study of lubrication mechanism of high precision reducer adopting a worm gear drive with complicated space surface contact”, Tribology International 146, 106261 (2020).
[30] Xingqiao Deng, Shisong Wang, Hammi Youssef, Linmao Qian, Yucheng Liu*. “Study on the influence of key design parameters on lubrication characteristics of a novel gear system applying Taguchi method”, Structural and Multidisciplinary Optimization 62(5), 2833-2847 (2020).
[31] Xingqiao Deng, Shisong Wang, Shike Wang, Jie Wang, Yucheng Liu*, Yangqing Dou, Ge He, Linmao Qian. “Lubrication mechanism in gearbox of high-speed railway trains”, Journal of Advanced Mechanical Design Systems and Manufacturing 14(4), 1900465 (2020).
[32] Xingqiao Deng, Shisong Wang, Linmao Qian, Yucheng Liu*. “Simulation and experimental study of influences of shape of roller on the lubrication performance of precision speed reducer”, Engineering Applications of Computational Fluid Mechanics 14(1), 1156-1172 (2020).
[33] Lei Wu, Bingjun Yu*, Pei Zhang, Chengqiang Feng, Peng Chen, Liang Deng, Jian Gao, Siming Chen, Shulan Jiang and Linmao Qian. “Rapid identification of ultrathin amorphous damage on monocrystalline silicon surface”, Physical Chemistry Chemical Physics 22, 12987-12995 (2020).
[34] Pengfei Shi, Junhui Sun, Wenmeng Yan, Ningning Zhou, Junyan Zhang, Jiyang Zhang*, Lei Chen*, Linmao Qian. “Roles of phase transition and surface property evolution in nanotribological behaviors of H-DLC: Effects of thermal and UV irradiation treatments”, Applied Surface Science 514, 145960 (2020).
[35] Pengfei Shi, Huikang Liang, Wenmeng Yan, Junhui Sun, Lei Chen*, Linmao Qian. “Development of a symmetrical micro-beam minimizing horizontal drift for indentation and scratch”, Review of Scientific Instruments 91(4), 043702 (2020).
[36] Hanqiang Wu, Liang Jiang*, Jinwei Liu, Changbang Deng, Haifeng Huang, Linmao Qian. “Efficient Chemical Mechanical Polishing of AISI 52100 Bearing Steel with TiSol-NH4 Dispersion-Based Slurries”, Tribology Letters 68(1), 34 (2020).
[37] Junhui Sun, Yangyang Lu, Yanqing Feng, Zhibin Lu,* Guang'an Zhang,* Yanping Yuan, Linmao Linmao, Qunji Xue. “Friction-load relationship in the adhesive regime revealing potential incapability of AFM investigations”, Tribology Letters 68(1), 18 (2020).
[38] Lei Wu, Bingjun Yu*, Zhitao Fan, Pei Zhang, Chengqiang Feng, Peng Chen, Jiaxin Ji, Linmao Qian. “Effects of normal load and etching time on current evolution of scratched GaAs surface during selective etching”, Materials Science in Semiconductor Processing 105, 104744 (2020).
[39] Yi Zeng, Zhanjiang Wang*, Na Qin, Liang Jiang, Wenhao Du and Linmao Qian. “Adhesive contact of a diamond sphere with an iron substrate caused by interatomic interaction”, Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology 234(12), 1926-1939 (2020).
[40] Haibo Xie, Zhanjiang Wang*, Na Qin, Wenhao Du and Linmao Qian. “Prediction of friction coefficients during scratch based on an integrated finite element and artificial neural network method”, Journal of Tribology-Transactions of the ASME 142(2), 021703 (2020).
[41] Chen Xiao, Xiaojun Xin, Xin He, Hongbo Wang, Lei Chen, Seong H. Kim*, Linmao Qian*. “Surface structure dependence of mechanochemical etching: Scanning probe-based nanolithography study on Si(100), Si(110), and Si(111)”, ACS Applied Materials & Interfaces 11, 20583-20588 (2019). (Cover Story)
[42] Chen Xiao, Jinjin Li, Lei Chen, Chenhui Zhang, Ningning Zhou, Tao Qing, Linmao Qian*, Jiyang Zhang, Jianbin Luo, “Water-based superlubricity in vacuum”, Friction 7(2), 192-198 (2019). (Cover Story)
[43] Lei Chen, Zhe Chen, Xiaoyu Tang, Wenmeng Yan, Zhongrong Zhou, Linmao Qian*, Seong H. Kim*. “Friction at single-layer graphene step edges due to chemical and topographic interactions”, Carbon 154, 67-73 (2019).
[44] Hongbo Wang, Changbang Deng, Chen Xiao, Luying Liu, Jinwei Liu, Yong Peng, Bingjun Yu, Linmao Qian*. “Fast and maskless nanofabrication for high-quality nanochannels”, Sensors & Actuators: B. Chemical 288, 383-391 (2019).
[45] Chen Xiao, Jinjin Li, Jian Gong, Lei Chen, Jiyang Zhang, Linmao Qian* and Jianbin Luo. “Gradual degeneration of liquid superlubricity: Transition from superlubricity to ordinary lubrication, and lubrication failure”, Tribology International 130, 352-358 (2019).
[46] Peng Zhang, Chen Xiao, Cheng Chen, Lei Chen, Linmao Qian*, “Effect of abrasive particle degradation on tribochemical wear of monocrystalline silicon”, Wear 426, 1240-1245 (2019).
[47] Lei Chen, Dien Ngo, Jiawei Luo, Yunfei Gong, Chen Xiao, Xin He, Bingjun Yu, Linmao Qian* and Seong H. Kim*. “Dependence of water adsorption on the surface structure of silicon wafers aged under different environmental conditions”, Physical Chemistry Chemical Physics 21, 26041-26048 (2019).
[48] Zhaohui Liu, Jian Gong, Chen Xiao, Pengfei Shi, Seong H. Kim, Lei Chen*, Linmao Qian*. “Temperature-dependent mechanochemical wear of silicon in water: The role of Si-OH surfacial groups”, Langmuir 35(24), 7735-7743 (2019).
[49] Jing Xia, Zhongrong Zhou, Linmao Qian*, Peter S. Ungar*. “Comment on van Casteren et al. (2018): Softer metallic spheres do abrade harder enamel”, Royal Society Open Science 6(2), 190229 (2019).
[50] Wanhao Cai, Duo Xu, Lu Qian, Junhao Wei, Chen Xiao, Linmao Qian, Zhong-yuan Lu, Shuxun Cui*. “Force-induced transition of π–π stacking in a single polystyrene chain”, Journal of the American Chemical Society 141(24), 9500-9503 (2019).
[51] Chen Xiao, Pengfei Shi, Wenmeng Yan, Lei Chen*, Linmao Qian, Seong. H. Kim. Colloids and Interfaces 3(3), 55 (2019). (Invited review).
[52] Yunhai Liu, Lei Chen*, Bin Zhang*, Zhongyue Cao, Pengfei Shi, Yong Peng, Ningning Zhou, Junyan Zhang and Linmao Qian. “Key role of transfer layer in the load dependence of friction on hydrogenated DLC films in humid air and vacuum”, Materials 12(9), 1550 (2019).
[53] Chen Xiao, Cheng Chen, Hongbo Wang, Lei Chen, Liang Jiang, Bingjun Yu*, Linmao Qian. “Effect of counter-surface chemistry on defect-free material removal of monocrystalline silicon”, Wear 426, 1233-1239 (2019).
[54] Lei Wu, Zhitao Fan, Yong Peng, Huaicheng Zhou, Hongbo Wang, Bingjun Yu*, Linmao Qian, “Rapid nanofabrication via UV-assisted selective etching on GaAs without templates”, Chemical Physics Letters 717, 152-157 (2019). (Cover Story)
[55] Jian Gong, Chen Xiao, Jiaxin Yu, Jinfang Peng, Bingjun Yu, Lei Chen*, Linmao Qian, “Stress-enhanced dissolution and delamination wear of crystal CaF2 in water condition”, Wear 418, 86-93 (2019).
[56] Wenmeng Yan, Jian Gong, Bingjun Yu, Lei Chen*, Linmao Qian. “Self-lubrication of Si/SiO2 interface achieved through running-in at low sliding speed”, Wear 426, 828-834 (2019).
[57] Shulan Jiang*, Feng Wang, Xianhua Tan, Jianbin Lin, Guanglan Liao, Zirong Tang, Tielin Shi, Linmao Qian. “Fabrication of MnO2/carbon micro/nanostructures based on Carbon-MEMS technique on stainless steel substrate for supercapacitive microelectrodes”, Electrochimica Acta 303, 323-328 (2019).
[58] Yijia Zou, Liang Jiang*, Bin Lin, Jinwei Liu, Zitong Zhou, and Linmao Qian. “Development of a reliable probes in situ linear exchange module based on an environment control atomic force microscope”, Review of Scientific Instruments 90(3), 036101 (2019).
[59] Zitong Zhou, Liang Jiang*, Jinwei Liu, Changbang Deng, Linmao Qian. “Preliminary investigation of the effect of environmental humidity on the nanoscale mechanical”, Micro & Nano Letters 14(5), 538-543 (2019).
[60] Bin Lin, Liang Jiang*, Yushan Chen, Jinwei Liu, Changbang Deng, Linmao Qian. A high-precision eight-AFM probe rotary exchange module. Review of Scientific Instruments 90(3), 076110 (2019).
[61] Wanhao Cai&, Chen Xiao&, Linmao Qian, and Shuxun Cui*. “Detecting van der Waals forces between a single polymer repeating unit and a solid surface in high vacuum”, Nano Research 12(1), 57-61 (2019).
[62] Chen Xiao, Pengfei Shi, Wenmeng Yan, Lei Chen*, Linmao Qian, Seong H. Kim. “Thickness and structure of adsorbed water layer and effects on adhesion and friction at nanoasperity contact”, Colloids Interfaces 3(3), 55 (2019).
[63] Yong Peng, Shulan Jiang*, Yong Tan, Hongbo Wang, Lei Wu and Linmao Qian. “The formation mechanism of nondefective silicon micropatterns fabricated by scratching assisted electrochemical etching”, ECS Journal of Solid State Science and Technology 8(9), 464-471 (2019).
[64] Zhitao Fan, Chao Zhi*, Lei Wu, Pei Zhang, Chengqiang Feng, Liang Deng, Bingjun Yu,* Linmao Qian. “UV/Ozone-assisted rapid formation of high-Quality tribological self-assembled monolayer”, Coatings 9(11), 762 (1-10) (2019).
[65] Yueqi Chen, Jian Ruan, Jianhai Huang, Linmao Qian, Shulan Jiang*. “Facile fabrication of silicon micro/nanostructures for microelectrodes by silver-assisted etching using nano-sponge as a template”, Journal of Physics: Conference Series 1407, 012106 (2019).
[66] Lei Chen, Jialin Wen, Peng Zhang, Bingjun Yu, Cheng Chen, Tianbao Ma, Xinchun Lu*, Seong H. Kim*, and Linmao Qian*. “Nanomanufacturing of silicon surface with a single atomic layer precision via mechanochemical reactions”, Nature Communications 9, 1542:1-7 (2018). DOI: 10.1038/s41467-018-03930-5.
[67] Hongbo Wang, Shulan Jiang, Lei Zhang, Bingjun Yu, Duoli Chen, Weiqing Yang*, Linmao Qian*. “High-performance optical projection controllable ZnO nanorod arrays microweighing sensor”, Nanoscale 10, 4727-4734 (2018).
[68] Lei Chen, Xin He, Hongshen Liu, Linmao Qian*, Seong H. Kim. “Water adsorption on hydrophilic and hydrophobic surfaces of silicon”, Journal of Physical Chemistry: Part C 122(21), 11385-11391 (2018).
[69] Yunhai Liu, Bingjun Yu, Zhongyue Cao, Pengfei Shi, Ningning Zhou, Bin Zhang, Junyan Zhang and Linmao Qian*. “Probing superlubricity stability of hydrogenated diamond-like carbon film by varying sliding velocity”, Applied Surface Science 439, 976-982 (2018).
[70] Hongbo Wang, Bingjun Yu, Cheng Chen, Shulan Jiang, Linmao Qian*. “Simple and low-cost nanofabrication process of nanoimprint templates for high-quality master gratings: friction-induced selective etching”, Applied Surface Science 454, 23-29 (2018).
[71] Peng Zhang, Cheng Chen, Chen Xiao, Lei Chen, Liang Jiang, Linmao Qian*. “Effects of surface chemical groups and environmental media on tribochemical running-in behaviors of silicon surface”, Tribology International 128, 174-180 (2018).
[72] Peng Zhang, Cheng Chen, Chen Xiao, Lei Chen, Linmao Qian*. “Comparison of wear methods at nanoscale: line scanning and area scanning”, Wear 400-401, 137-143 (2018).
[73] Xiaodong Wang, Jian Guo, Lin Xu, Guanggui Cheng, Linmao Qian*. “An investigation of the wear on silicon surface at high humidity”, Materials 11(6), 10 (2018).
[74] Cheng Chen, Liang Jiang, Peng Zhang, Hongbo Wang, Linmao Qian*. “Simple method to measure the etching rate of monocrystalline silicon in KOH solution”, Micro & Nano Letters 13(4), 481-485 (2018).
[75] Xiaoxiao Liu, Bingjun Yu*, Yijia Zou, Chao Zhou, Xiaoying Li, Jiang Wu, Huiyun Liu, Lei Chen, Linmao Qian. “Revealing silicon crystal defects by conductive atomic force microscope”, Applied Physics Letters, 113(10), 101601 (2018).
[76] Guangran Guo, Jiaming Li, Changbang Deng, Qipei He, Qingyuan Yu, Chao Zhou, Xiaoxiao Liu, Shulan Jiang, Lei Chen, Bingjun Yu*, Linmao Qian. “Nondestructive nanofabrication on monocrystalline silicon via site-controlled formation and removal of oxide mask”, Applied Physics Express 11(11), 116501 (2018).
[77] Chao Zhou, Jiaming Li, Lei Wu, Guangran Guo, Hongbo Wang, Peng Chen, Bingjun Yu*, Linmao Qian. “Friction-induced selective etching on silicon by TMAH solution”, RSC Advances 8, 36043-36048 (2018).
[78] Jinwei Liu, Liang Jiang*, Changbang Deng, Wenhao Du, Linmao Qian. “Effect of oxide film on nanoscale mechanical removal of pure iron”, Friction 6(3), 307-315 (2018).
[79] Feng Wang, Shulan Jiang*, Jinghui Han, Guangran Guo, Bingjun Yu, Weiqing Yang, Linmao Qian. “Facile and low-cost fabrication of uniform silicon micro/nanostructures by nanopitting-assisted wet chemical etching”, Micro & Nano Letters 13(9), 1296-1301 (2018).
[80] Yunhai Liu, Bin Zhang, Lei Chen*, Zhongyue Cao, Pengfei Shi, Jinwei Liu, Junyan Zhang and Linmao Qian. “Perspectives of the friction mechanism of hydrogenated diamond-like carbon film in air by varying sliding velocity”, Coatings 8(10), 331 (2018).
[81] Jing Xia, Z. Ryan Tian, Licheng Hua, Lei Chen, Zhongrong Zhou, Linmao Qian*, Peter S. Ungar*. “Enamel crystallite strength and wear: Nanoscale responses of teeth to chewing loads”, Journal of the Royal Society Interface 14(135), 20170456 (2017).
[82] Chen Xiao, Jinjin Li, Lei Chen, Chenhui Zhang, Ningning Zhou, Linmao Qian*, Jianbin Luo. “Speed dependence of liquid superlubricity stability with H3PO4 solution”, RSC Advances 7, 49337-49343 (2017).
[83] Lei Chen, Chen Xiao, Xin He, Bingjun Yu, Seong H. Kim*, Linmao Qian*. “Friction and tribochemical wear behaviors of native oxide layer on silicon at nanoscale”, Tribology Letters 65, 139 (2017).
[84] Lei Chen, Chen Xiao, Bingjun Yu, Seong H. Kim*, Linmao Qian*. “What governs friction of silicon oxide in humid environment – contact area between solids, water meniscus around the contact, or water layer structure?”, Langmuir 33, 9673-9679 (2017).
[85] Hongbo Wang, Bingjun Yu, Shulan Jiang, Liang Jiang, Linmao Qian*. “UV/Ozone-assisted tribochemistry-induced nanofabrication on Si (100) surfaces”, RSC Advances 7, 39651-39656 (2017).
[86] Chen Xiao, Jian Guo, Peng zhang, Cheng Chen, Lei Chen, Linmao Qian*. “Effect of crystal plane orientation on tribochemical removal of monocrystalline silicon”, Scientific Reports 7, 40750 (2017).
[87] Peng Zhang, Hongtu He, Cheng Chen, Chen Xiao, Lei Chen, Linmao Qian*. “Effect of abrasive particle size on tribochemical wear of monocrystalline silicon”, Tribology International 109, 222-228 (2017).
[88] Lei Chen, Yaqiong Qi, Bingjun Yu, Linmao Qian*. “Sliding Speed-Dependent Tribochemical Wear of Oxide-Free Silicon”, Nanoscale Research Letters 12(1), 404 (2017).
[89] Lei Chen, Luocheng Hu, Chen Xiao, Yaqiong Qi, Bingjun Yu, Linmao Qian*. “Effect of crystallographic orientation on mechanical removal of CaF2”, Wear 376, 409-416 (2017).
[90] Cheng Chen, Peng Zhang, Chen Xiao, Lei Chen, Linmao Qian*. “Effect of mechanical interaction on the tribochemical wear of bare silicon in water”, Wear 376, 1307-1313 (2017).
[91] Chen Xiao, Cheng Chen, Jian Guo, Peng Zhang, Lei Chen, Linmao Qian*. “Threshold contact pressure for the material removal on monocrystalline silicon by SiO2 microsphere”, Wear 376, 188-193 (2017).
[92] Bingjun Yu, Hongtu He, Lei Chen, Linmao Qian*. “Tribological behavior of monocrystalline silicon from single- to multiple-asperity scratch”, Wear 374-375, 29-35 (2017).
[93] Hongtu He, Jiaxin Yu, Linmao Qian, Carlo G. Pantano, Seong H. Kim*. “Enhanced tribological properties of barium boroaluminosilicate glass by thermal poling”, Wear 376, 337-342 (2017).
[94] Jialiang Chen, Jiantao Liu, Bingjun Yu*, Lei Chen, Chenning Jin, Linmao Qian. “Preparation of multi-tip arrays on flexible substrates for large-scale microfabrication”, Micro & Nano Letters 12(2), 104-108 (2017).
[95] Chenning Jin, Bingjun Yu*, Xiaoxiao Liu, Chen Xiao, Hongbo Wang, Shulan Jiang, Jiang Wu, Huiyun Liu, Linmao Qian. “Site-controlled fabrication of silicon nanotips by indentation-induced selective etching”, Applied Surface Science 425, 227-232 (2017).
[96] Cheng Chen, Chen Xiao, Xiaodong Wang, Peng Zhang, Lei Chen, Yaqiong Qi, Linmao Qian*. “Role of water in the tribochemical removal of bare silicon”, Applied Surface Science 390, 696-702 (2016).
[97] Bingjun Yu, Jian Gao, Chenning Jin, Chen Xiao, Jiang Wu, Huiyun Liu, Shulan Jiang, Lei Chen, Linmao Qian*. “Humidity effects on tribochemical removal of GaAs surfaces”, Applied Physics Express 9, 066703 (2016).
[98] Xiaodong Wang, Jian Guo, Cheng Chen, Lei Chen, Linmao Qian*. “A simple method to control nanotribology behaviors of monocrystalline silicon”, Journal of Applied Physics 119, 044304 (2016).
[99] Hongtu He, Seong H. Kim, Linmao Qian*. “Effects of contact pressure, counter-surface and humidity on wear of soda-lime-silica glass at nanoscale”, Tribology International 94, 675-681 (2016).
[100] Yaqiong Qi, Lei Chen*, Shulan Jiang, Jiaxin Yu, Bingjun Yu, Chen Xiao, Linmao Qian. “Investigation of silicon wear against non-porous and micro-porous SiO2 spheres in water and in humid Air”, RSC Advances 6, 89627-89634 (2016).
[101] Chenning Jin, Bingjun Yu*, Chen Xiao, Lei Chen, Linmao Qian. “Temperature-dependent nanofabrication on silicon by friction-induced selective etching”, Nanoscale Research Letters 11, 229 (2016).
[102] Jialin Wen, Tianbao Ma, Weiwei Zhang, George Psofogiannakis, Adri C.T. van Duin, Lei Chen, Linmao Qian, Yuanzhong Hu, Xinchun Lu. “Atomic insight into tribochemical wear mechanism of silicon at the Si/SiO2 interface in aqueous environment: molecular dynamics simulations using ReaxFF reactive force field”, Applied Surface Science 390, 216-223 (2016).
[103] Jiawei Luo, Hongtu He, Nikolas J. Podraza, Linmao Qian, Carlo G. Pantano, Seong H. Kim*. “Thermal poling of soda lime silica glass with nonblocking electrodes – Part 1: Effects of sodium ion migration and water ingress on glass surface structure”, Journal of the American Ceramic Society, 99(4), 1221-1230 (2016).
[104] Hongtu He, Jiawei Luo, Linmao Qian, Carlo G. Pantano, Seong H. Kim*. “Thermal poling of soda lime silica glass with non-blocking electrodes – Part 2: Effects on mechanical and mechanochemical properties”, Journal of the American Ceramic Society 99(4), 1231-1238 (2016).
[105] Ping Qing, Shengbin Huang, ShanShan Gao, Linmao Qian, HaiYang Yu. “Effect of gamma irradiation on the wear behavior of human tooth dentin”, Clinical Oral Investigations, doi:10.1007/s00784-016-1731-5 (2016).
[106] Jing Xia, Jing Zheng, Diaodiao Huang, Z. Ryan Tian, Lei Chen, Zhongrong Zhou, Peter S. Ungard*, Linmao Qian*. “New model to explain tooth wear with implications for microwear formation and diet reconstruction”, Proceedings of the National Academy of Sciences of the United States of America 112(34), 10669-10672 (2015).
[107] Xiaodong Wang, Seong H. Kim, Cheng Chen, Lei Chen, Hongtu He, Linmao Qian*. “Humidity dependence of tribochemical wear of monocrystalline silicon”, ACS Applied Materials & Interfaces 7(27), 14785–14792 (2015).
[108] Jian Guo, Bingjun Yu, Lei Chen, Linmao Qian*. “Nondestructive nanofabrication on Si(100) surface by tribochemistry-induced selective etching”, Scientific Reports 5, 16472 (2015).
[109] Chenfei Song, Xiaoying Li, Hanshan Dong, Bingjun Yu, Zhiming Wang*, Linmao Qian*. “Nondestructive tribochemistry-assisted nanofabrication on GaAs surface”, Scientific Reports 5, 9020 (2015).
[110] Lei Chen, Hongtu He, Xiaodong Wang, Seong H. Kim*, Linmao Qian*. “Tribology of Si/SiO2 in humid air: transition from severe chemical wear to wearless behavior at nanoscale”, Langmuir 31(1), 149-156 (2015).
[111] Chenfei Song, Bingjun Yu, Mian Wang, Linmao Qian*. “Rapid and maskless nanopatterning of aluminosilicate glass surface via friction-induced selective etching in HF solution”, RSC Advances 5, 97: 79964-79968 (2015).
[112] Jian Guo, Chen Xiao, Bei Peng, Linmao Qian*. “Tribochemistry-induced direct fabrication of nondestructive nanochannels on silicon surface”, RSC Advances 5, 100769-100774 (2015).
[113] Bingjun Yu, Jian Gao, Lei Chen, Linmao Qian*. “Effect of sliding velocity on tribochemical removal of gallium arsenide surface”, Wear 330-331, 59-63 (2015).
[114] Lei Chen, Yajun Yang, Hongtu He, Seong H. Kim, Linmao Qian*. “Effect of coadsorption of water and alcohol vapor on the nanowear of silicon”, Wear 332-333, 879-884 (2015).
[115] Hongtu He, Linmao Qian, Carlo G. Pantano, and Seong H. Kim. “Effects of humidity and counter-surface on tribochemical wear of soda-lime-silica glass”, Wear 342-343, 100-106 (2015).
[116] Ping Qing, Shengbin Huang, Shanshan Gao, Linmao Qian, Haiyang Yu. “Effect of gamma irradiation on the wear behaviour of human tooth enamel”, Scientific Reports 5, 11568 (2015).
[117] Ping Qing, Yue Li, Shanshan Gao, Mengting Qiao, Linmao Qian, Haiyang Yu. “Characterization of the nanoscratch, microstructure, and composition in hypoplastic amelogenesis imperfecta”, Advances in Mechanical Engineering 7(7), 1687814015595597 (2015).
[118] Jian Guo, Bingjun Yu, Xiaodong Wang, Linmao Qian*. “Nanofabrication on monocrystalline silicon through friction-induced selective etching of Si3N4 mask”, Nanoscale Research Letters 9, 241 (2014).
[119] David J. Marchand, Lei Chen, Yonggang Meng, Linmao Qian*, Seong H. Kim*. “Effects of vapor environment and counter-surface chemistry on tribochemical wear of silicon wafer”, Tribology Letters 53(1), 365-372 (2014).
[120] Peng Tang, Bingjun Yu, Jian Guo, Chenfei Song, Linmao Qian*. “Maskless micro/nanofabrication on GaAs surface by friction-induced selective etching”, Nanoscale Research Letters 9, 59 (2014).
[121] Hongtu He, Linmao Qian, Carlo G. Pantano, Seong H. Kim. “Mechanochemical wear of soda lime silica glass in humid environments”, Journal of the American Ceramic Society 97(7), 2061-2068 (2014).
[122] Mian Wang, Shuxun Cui, Bingjun Yu, Linmao Qian*. “Effect of chain length on the conformation and friction behaviour of DNA”, Science China: Technological Science 56(12), 2927-2933 (2013).
[123] Mian Wang, Yu Tian, Shuxun Cui, Linmao Qian*. “Effect of Salt Concentration on the Conformation and Friction Behaviour of DNA”, Colloids and Surfaces A: Physicochemical and Engineering Aspects 436, 775-781 (2013).
[124] Chenfei Song, Bingjun Yu, Linmao Qian*. “Effect of scan parameters and etching temperature on low-destructive nanofabrication of quartz”, Micro & Nano Letters 8(10), 735-739 (2013).
[125] Bingjun Yu, Linmao Qian*. “Effect of crystal plane orientation on the friction-induced nanofabrication on monocrystalline silicon”, Nanoscale Research Letters 8, 137 (2013).
[126] Chenfei Song, Xiaoying Li, Shuxun Cui, Hanshan Dong, Bingjun Yu, Linmao Qian*. “Maskless and low-destructive nanofabrication on quartz by friction-induced selective etching”, Nanoscale Research Letters 8, 140 (2013).
[127] Xiaodong Wang, Chenfei Song, Bingjun Yu, Lei Chen, Linmao Qian*. “Nanowear behaviour of monocrystalline silicon against SiO2 tip in water”, Wear 298-299, 80-86 (2013).
[128] Lei Chen, Mingchu Yang, Chenfei Song, Bingjun Yu, Linmao Qian*. “Is 2 nm DLC coating enough to resist the nanowear of silicon”, Wear 302(1-2), 909-917 (2013).
[129] Lei Chen, Seong H. Kim, Xiaodong Wang, Linmao Qian*. “Running-in process of Si–SiOx /SiO2 pair at nanoscale—Sharp drops in friction and wear rate during initial cycles”, Friction 1(1), 81-91 (2013).
[130] Zhijiang Wu, Chenfei Song, Jian Guo, Bingjun Yu, Linmao Qian*. “A multi-probe micro-fabrication apparatus based on the friction-induced fabrication method”, Frontiers of Mechanical Engineering 8(4), 333-339 (2013).
[131] Jiaxin Yu, Lei Chen, Linmao Qian, Danlu Song, Yong Cai. “Investigation of humidity-dependent nanotribology behaviors of Si(100)/SiO2 pair moving from stick to slip”, Applied Surface Science 265, 192-200 (2013).
[132] Liang Zheng, Jing Zheng, Yafeng Zhang, Linmao Qian, Zhongrong Zhou. “Effect of CPP-ACP on the remineralization of acid-eroded human tooth enamel: nanomechanical properties and microtribological behaviour study”, Journal of Physics D-Applied Physics, 46(40), (2013).
[133] Shanshan Gao, Zhenbing Cai, Shengbin Huang, Linmao Qian, Haiyang Yu. “Nano-scratch behavior of human root canal wall dentin lubricated with EDTA pastes”, Tribology International 63, 169-176 (2013).
[134] Jing Zheng, Yan Li, Maoyu Shi, Yafeng Zhang, Linmao Qian, Zhongrong Zhou. “Microtribological behaviour of human tooth enamel and artificial hydroxyapatite”, Tribology International 63, 177-185 (2013).
[135] Yafeng Zhang, Jing Zheng, Liang Zheng, Xinyu Shi, Linmao Qian, Zhongrong Zhou. “Effect of adsorption time on the lubricating properties of the salivary pellicle on human tooth enamel”, Wear 301(1-2), 300-307 (2013).
[136] Liang Zheng, Yan Li, Jing Zheng, M. Wen, Yafeng Zhang, Linmao Qian, Zhongrong Zhou. “A comparative study on the sliding wear behaviors of human tooth enamel, Cu-Zn alloy and Al2O3 ceramic”, Wear 301(1-2), 308-315 (2013).
[137] Jing Zheng, Longqing Weng, Maoyu Shi, J. Zhou, Licheng Hua, Linmao Qian, Zhongrong Zhou. “Effect of water content on the nanomechanical properties and microtribological behaviour of human tooth enamel”, Wear 301(1-2), 316-323 (2013).
[138] Jiaxin Yu, Seong H. Kim, Bingjun Yu, Linmao Qian*, Zhongrong Zhou, “Role of tribochemistry in nanowear of single-crystalline silicon”, ACS Applied Materials & Interfaces 4(3), 1585–1593 (2012).
[139] Bingjun Yu, Xiaoying Li, Hanshan Dong, Yunfei Chen, Linmao Qian*, Zhongrong Zhou, “Towards a deeper understanding of the formation of friction-induced hillocks on monocrystalline silicon”, Journal of Physics D: Applied Physics 45, 145301 (2012).
[140] Jian Guo, Chenfei Song, Xiaoying Li, Bingjun Yu, Hanshan Dong, Linmao Qian*, Zhongrong Zhou. “Fabrication mechanism of friction-induced selective etching on Si(100) surface”, Nanoscale Research Letters 7, 152 (2012).
[141] Bingjun Yu, Xiaoying Li, Hanshan Dong, Linmao Qian*, “Mechanical performance of friction-induced protrusive nanostructures on monocrystalline silicon and quartz”, Micro & Nano Letters 7(12), 1270-1273 (2012).
[142] Yanan Pei, Dong Xie, Yongxiang Leng, Linmao Qian, Hong Sun, Nan Huang. “Effects of screen-grid bias voltage on the microstructure and properties of the ultrahigh molecular weight polyethylene (UHMWPE) modified by oxygen plasma”, Vacuum 86, 1945-1951 (2012).
[143] Yaowen Liu, Xiaohong Li, Bin Zou, Jiangang Chen, Zhenbing Cai, Shuxin Qu, Minhao Zhu, Linmao Qian. “Fretting behaviors of hot-pressed electrospun hydroxyapatite/poly(dllactide) fibrous composites as potential orthopedic implants”, Tribology International 53, 124-133 (2012).
[144] Chenfei Song, Xiaoying Li, Bingjun Yu, Hanshan Dong, Linmao Qian*, and Zhongrong Zhou, “Friction-induced nanofabrication method to produce protrusive nanostructures on quartz”, Nanoscale Research Letters 6, 310 (2011).
[145] Jing Liu, Hanshan Dong, J. Buhagiar, Chenfei Song, Bingjun Yu, Linmao Qian*, Zhongrong Zhou. “Effect of low-temperature plasma carbonitriding on the fretting behaviour of 316LVM medical grade austenitic stainless steels”, Wear 271, 1490-1496 (2011).
[146] Lei Chen, Mingchu Yang, Jiaxin Yu, Linmao Qian*, Zhongrong Zhou. “Nanofretting behaviours of ultrathin DLC coating on Si(100) substrate”, Wear 271, 1980-1986 (2011).
[147] Xiaodong Wang, Jiaxin Yu, Lei Chen, Linmao Qian*, Zhongrong Zhou. “Effects of water and oxygen on the tribochemical wear of monocrystalline Si(100) against SiO2 sphere by simulating the contact conditions in MEMS”, Wear 271, 1681-1688 (2011).
[148] Shaoyao Zheng, Jing Zheng, Shanshan Gao, Bingjun Yu, Haiyang Yu, Linmao Qian*, Zhongrong Zhou. “Investigation on the microtribological behaviour of human tooth enamel by nanoscratch”, Wear 271, 2290-2296 (2011).
[149] Jiaxin Yu, Shuang Zhang, Linmao Qian*, Jun Xu, Wangyu Ding, Zhongrong Zhou. “Radial nanofretting behaviors of ultrathin carbon nitride film on silicon substrate”, Tribology International 44, 1400-1406 (2011).
[150] Na Fan, Guangxiong Chen, Linmao Qian. “Analysis of squeaking on ceramic hip endoprosthesis using the complex eigenvalue method”, Wear 271, 2305-2312 (2011).
[151] Jing Zheng, Huan Huang, Maoyu Shi, Liang Zheng, Linmao Qian, Zhongrong Zhou. “In vitro study on the wear behaviour of human tooth enamel in citric acid solution”, Wear 271, 2313-2321 (2011).
[152] Liang Zheng, Jing Zheng, Longqing Weng, Linmao Qian, Zhongrong Zhou. “Effect of remineralization on the nanomechanical properties and microtribological behaviours of acid-eroded human tooth enamel”, Wear 271, 2297-2304 (2011).
[153] Hengjun Liu, Dong Xie, Linmao Qian, Xingrui Deng, Yongxiang Leng, Nan Huang. “The mechanical properties of the ultrahigh molecular weight polyethylene (UHMWPE) modified by oxygen plasma”, Surface & Coating Technology 205, 2697-2701 (2011).
[154] Jiaxin Yu, Linmao Qian*, Bingjun Yu, Zhongrong Zhou. “Effect of surface hydrophilicity on the nanofretting behavior of Si(100) in atmosphere and vacuum”, Journal of Applied Physics 108, 034314 (2010).
[155] Peng Wei, Linmao Qian*, Jing Zheng, Zhongrong Zhou. “Effect of water on the mechanical and frictional behaviors of human fingernails”, Tribology Letters 38(3), 367 - 375 (2010).
[156] Bingjun Yu, Linmao Qian*, Hanshan Dong, Jiaxin Yu, Zhongrong Zhou. “Friction-induced hillocks on monocrystalline silicon in atmosphere and in vacuum”, Wear, 268, 1095-1102 (2010).
[157] Joseph Buhagiar, Linmao Qian, Hanshan Dong. “Surface property enhancement of Ni-free medical grade austenitic stainless steel by low-temperature plasma carburising”, Surface & Coating Technology 205, 388-395 (2010).
[158] Qianhua Kan, Guozheng Kang, Linmao Qian. “Super-elastic constitutive model considering plasticity and its finite element implementation”, Acta Mechanica Solida Sinica, 23(2), 95-105 (2010).
[159] Shanshan Gao, Shengbin Huang, Linmao Qian, Haiyang Yu. “Nanoscratch resistance of human tooth enamel treated by Nd: YAG laser irradiation”, Journal of Engineering Tribology, 224(6), 529-538 (2010).
[160] Jing Zheng, Yi Huang, Linmao Qian, Zhongrong Zhou. “Nanomechanical properties and microtribological behaviors of human tooth enamel”, Journal of Engineering Tribology, 224(6), 577-588 (2010).
[161] Jing Zheng, Feng Xiao, Liang Zheng, Linmao Qian, Zhongrong Zhou. “Erosion behaviors of human tooth enamel at different depth”, Tribology International 43 (7), 1262-1267 (2010).
[162] Bingjun Yu, Hanshan Dong, Linmao Qian*, Yunfei Chen, Jiaxin Yu, Zhongrong Zhou. “Friction-induced nanofabrication on monocrystalline silicon”, Nanotechnology, 20 (46), Art. No. 465303 (2009).
[163] Linmao Qian*, Shuang Zhang, Dongyang Li, Zhongrong Zhou. “Spherical indentation for determining the phase transition properties of shape memory alloys”, Journal of Materials Research 24(3), 1082-1086 (2009).
[164] Linmao Qian, Jingyi Zhang, Zhongrong Zhou. “Radial nanofretting behavior of four typical structural materials in MEMS under high loads”, Tribology International 42, 1242-1249 (2009).
[165] Jiaxin Yu, Linmao Qian*, Bingjun Yu and Zhongrong Zhou. “Nanofretting behaviors of monocrystalline silicon (100) against diamond tips in atmosphere and vacuum”, Wear 267, 322-329 (2009).
[166] Jiaxin Yu, Linmao Qian*, Bingjun Yu and Zhongrong Zhou. “Nanofretting behavior of monocrystalline silicon (100) against SiO2 microsphere in vacuum”, Tribology Letters 34, 31-40 (2009).
[167] Bingjun Yu, Linmao Qian*, Jiaxin Yu and Zhongrong Zhou. “Effects of tail group and chain length on the tribological behaviors of self-assembled dual-layer films in atmosphere and in vacuum”, Tribology Letters 34, 1-10 (2009).
[168] Jing Zheng, Feng Xiao, Linmao Qian, Zhongrong Zhou. “Erosion behavior of human tooth enamel in citric acid solution”, Tribology International, 42, 1558-1564 (2009).
[169] Shanshan Gao, Linmao Qian, Shengbin Huang, Haiyang Yu. “Effect of gallic acid on the wear behavior of early carious enamel”, Biomedical Materials, 4 (3): Art. No. 034101 (2009).
[170] Shanshan Gao, Linmao Qian, Haiyang Yu. “Anisotropic wear resistance of human mandible cortical bone”, Tribology Letters 33, 73-81 (2009).
[171] Shanshan Gao, Shengbin Huang, Linmao Qian, Haiyang Yu, Zhongrong zhou. “Wear behavior of early carious enamel before and after remineralization”, Wear, 267(5-8), 726-733 (2009).
[172] Guozheng Kang, Qianhua Kan, Linmao Qian, Yujie Liu, “Ratcheting deformation of super-elastic and shape-memory NiTi alloys”, Mechanics of Materials 41(2), 139-153 (2009).
[173] Linmao Qian*, Qingping Sun, Zhongrong Zhou. “The role of martensite reorientation in the fretting behavior of NiTi shape memory alloy”, Proc. IMechE Part J: J. Engineering Tribology 222(J7), 887-897 (2008).
[174] Qianhua Kan, Guozheng Kang, Linmao Qian, Yujie Liu, Hailin Wang. “Experimental study of the transformation ratcheting of superelastic NiTi alloy”, ACTA Metallurgica Sinica 44 (8): 949-955 (2008).
[175] Xi-Qiao Feng, Linmao Qian, Wenyi Yan, and Qingping Sun. “Wearless scratch on NiTi shape memory alloy due to phase transformational shakedown”, Applied Physics Letters 92, 121909 (2008).
[176] Hanshan Dong, Xinhua Ju, Hui Yang, Linmao Qian, Zhongrong Zhou. “Effect of ceramic conversion treatments on the surface damage and nickel ion release of NiTi alloys under fretting corrosion conditions”, Journal of Materials Science – Materials in Medicine 19, 937-946 (2008).
[177] Linmao Qian, Zhongrong Zhou, Qingping Sun, Wenyi Yan, “Nanofretting behaviors of NiTi shape memory alloy”, Wear 263, 501–507 (2007).
[178] Hui Yang, Linmao Qian*, Zhongrong Zhou, Xinhua Ju, Hanshan Dong. “Effect of surface modification on the fretting behavior of NiTi shape memory alloy”, Tribology Letters 25(3), 215-224 (2007).
[179] Wenyi Yan, Qingping Sun, Xiqiao Feng, Linmao Qian, “Analysis of spherical indentation of superelastic shape memory alloys”, International Journal of Solids and Structures 44, 1–17 (2007).
[180] Wenyi Yan, Qingping Sun, Xiqiao Feng, Linmao Qian, “Determination of transformation stresses of shape memory alloy thin films: A method based on spherical indentation”, Applied Physics Letters 88, 241912 (2006).
[181] Linmao Qian, Qingping Sun, Xudong Xiao, “Role of Phase Transition in the Unusual Microwear Behavior of Superelastic NiTi Shape Memory Alloy”, Wear, 260/4-5, 509-522 (2006).
[182] Linmao Qian, Hui Yang, Minhao Zhu, Zhongrong Zhou, “Experimental verification of the strain-gradient plasticity model for indentation”, Journal of Material Research, 20(11), 3150-3156 (2005).
[183] Linmao Qian, Zhongrong Zhou, Qingping Sun, “The role of phase transition in the fretting behaviour of NiTi shape memory alloy”, Wear, 259/1-6, 309-318 (2005).
[184] Linmao Qian, Ming Li, Zhongrong Zhou, Hui Yang, Xinyu Shi. “Comparison of nano-indentation hardness and micro hardness”, Surface & Coating Technology, 195(2-3), 264-271 (2005).
[185] Linmao Qian, Qingping Sun, Zhongrong Zhou. “Fretting wear behavior of superelastic nickel titanium shape memory alloy”, Tribology Letters, 18(4), 463-475 (2005).
[186] Linmao Qian, M. Charlot, E. Perez, G. Luengo, A. Potter, C. Cazeneuve. “Dynamic friction by polymer/surfactant mixtures adsorbed on surfaces”, Journal of Physical Chemistry B 108(48), 18608-18614 (2004).
[187] Linmao Qian, G. Luengo, E. Perez. “How linear molecules resist to shear: the origin of nanoscale friction”, Science in China Series G-Physics, Mechanics & Astronomy 47 Suppl. S, 15-20 (2004).
[188] Linmao Qian, Xudong Xiao, Qingping Sun, and Tongxi Yu. “Anomalous relationship between hardness and wear properties of a superelastic nickel–titanium alloy”, Applied Physics Letters 84(7), 1076-1078 (2004).
[189] Linmao Qian, Fang Tian, and Xudong Xiao. “Tribological properties of self-assembled monolayers and their substrates under various humid environments”, Tribology Letters 15(3), 169-176 (2003).
[190] Linmao Qian, Gustavo Luango, and Eric Perez. “Thermally activated lubrication with alkanes: the effect of chain length”, Europhysics Letters, 61(2), 268-274 (2003).
[191] G. Bryant, S. R. Williams, Linmao Qian, I. K. Snook, E. Perez, F. Pincet. “How hard is a colloidal ‘hard-sphere’ interaction?”, Physical Review E (Rapid Complication), 66, 060501 (2002).
[192] Linmao Qian, G. Luango, D. Douillet, M. Charlot, X. Dollat, E. Perez. “New 2-dimensional friction force apparatus design for measuring shear forces at the nanometer scale”, Review of Scientific Instruments, 72(11), 4171-4177 (2001).
[193] I. Aujard, J.P. Baltaze, J.B. Baudin, E. Cogne, F. Ferrage, L. Jullien, E. Perez, V. Prevost, Linmao Qian, O. Ruel. “Tetrahedral on sager crosses for solubility improvement and crystallization bypass”, Journal of the American Chemical Society 123 (34), 8177-8188 (2001).
[194] Linmao Qian, Jianbin Luo, Shizhu Wen and Xudong Xiao, “The experimental rules of mica as a reference sample of AFM/FFM measurement”, Chinese Science Bulletin 46(4), 349-352 (2001).
[195] Linmao Qian, Xudong Xiao and Shizhu Wen. “Tip in-situ chemical modification and its effects on tribological measurements”, Langmuir 16(2), 662-670 (2000).
[196] Xudong Xiao and Linmao Qian. “Investigation of humidity-dependent capillary force”, Langmuir 16(21), 8153-8158 (2000).
[197] Luo Jianbin, Qian Linmao, Wen Shizhu, et al. “The failure of fluid film at nano-scale”, STLE, Tribology Trans. 42(4), 912-916 (1999).
[198] 钱林茂, 雒建斌, 温诗铸, 萧旭东. "二氧化硅及其硅烷自组装膜微观摩擦力与粘着力的研究 (I)", 物理学报, 49(11), 2240-2246 (2000).
[199] 钱林茂, 雒建斌, 温诗铸, 萧旭东. "二氧化硅及其硅烷自组装膜微观摩擦力与粘着力的研究 (II)", 物理学报, 49(11), 2247-2253 (2000).
[200] 姚洋洋, 陈磊, 郭剑, 钱林茂*. "基于Si3N4探针的单晶硅表面小线宽结构的摩擦诱导纳米加工", 上海大学学报,20(6), 669-680 (2014).
[201] 李连凯, 陈磊, 郭剑, 钱林茂*. "基于摩擦诱导选择性刻蚀原理的单晶硅表面大面积织构加工", 机械工程学报,50(17), 93-98 (2014).
[202] 徐相杰, 余丙军, 陈磊, 钱林茂*. "滑动速度对单晶硅在不同接触尺度下磨损的影响规律研究", 机械工程学报, 49(1), 108-115 (2013).
[203] 赵飞, 魏鹏, 余丙军, 钱林茂*. "角蛋白组织摩擦学性能及其损伤自修复的初步研究", 摩擦学学报, 32(4), 402-409 (2012).
[204] 范娜, 陈光雄, 钱林茂. "陶瓷髋关节异响的研究进展和展望", 摩擦学学报, 31(3), 311-316 (2011).
[205] 张赜文, 余家欣, 钱林茂. "压头曲率半径对单晶硅径向纳动损伤的影响", 机械工程学报,46(9), 107-112 (2010).
[206] 杨超, 余丙军, 钱林茂. "凸结构的形成——低载下单晶硅表面的划痕损伤研究", 摩擦学学报,30(1), 92-96 (2010).
[207] 谢祖飞, 余家欣, 钱林茂. "载荷对四种材料摩擦机制转变的影响研究", 上海交大学报, 43(12), 1930-1935 (2009).
[208] 刘静, 钱林茂, 董汉山, Joseph Buhagiar. “碳化、氮化与碳氮化对316LVM不锈钢微动腐蚀磨损性能的影响", 摩擦学学报,29(5), 399-404 (2009).
[209] 肖枫, 郑靖, 周仲荣, 钱林茂. "人牙釉质的酸蚀行为研究", 摩擦学学报,29(2), 163-167 (2009).
[210] 张爽, 钱林茂, 莫继良. "氮化铬薄膜的径向纳动损伤机制研究", 摩擦学学报,28(4), 316-321 (2008).
[211] 余家欣, 钱林茂*. "一种改进的原子力显微镜摩擦力标定方法", 摩擦学学报, 27(5), 472-476 (2007).
[212] 张静宜, 钱林茂, 周仲荣. "高载下单晶铜和单晶硅的径向纳动与损伤行为研究", 摩擦学学报, 26(1),1-6 (2006).
[213] 杨辉, 钱林茂, 朱旻昊, 周仲荣. "预塑性应变对纳米压痕硬度尺寸效应的影响", 机械工程学报,41(9), 24-27 (2005).
[214] 周仲荣, 钱林茂. "摩擦学尺寸效应及相关问题的思考", 机械工程学报,39(8), 22-26 (2003).
[215] 钱林茂, 雒建斌, 温诗铸, 萧旭东. "原子力显微镜针尖和样品间的材料转移研究", 清华大学学报, 40(4), 96-9 (2000).
[216] 雒建斌, 钱林茂, 刘姗, 温诗铸. "纳米级润滑膜失效实验研究", 自然科学进展, 10(1), 89-94 (2000).
[217] 钱林茂, 雒建斌, 张伟, 温诗铸. "自适应微摩擦综合测量仪的研制与纳米润滑实验研究", 清华大学学报, 38(4), 33-38 (1998).
[218] 钱 林茂, 孟永钢, 黄平, 史小路. "电阻法监测油/水乳化液润滑状态的变化", 摩擦学学报, 16(3), 239-246(1996).
二. 会议论文
[1] Chen Xiao, Lei Chen, Jian Guo, Bingjun Yu, Linmao Qian*. "Effect of Scratching Load on the Friction-induced Selective Etching of Si3N4 Film on Si(100) Surface", Proceedings of the 14th IFToMM World Congress,Taipei, Taiwan, October 25-30, 2015. "Best Conference Paper Award". (本文获大会最佳论文奖)
[2] 王冕、丁铎、钱林茂*:"第三代基因测序系统中不同纳 米孔材 料对DNA过孔行为的影响", 2014年全国青年摩擦学学术会议论文集;(本文获得2014年中国机械工程学会摩擦学分会优秀学术论文奖)
[3] Long Hua, Bingjun Yu, Chenfei Song, Linmao Qian*, Zhongrong Zhou. "Nanotribological behaviors of friction-induced hillocks on monocrystalline silicon", Proceedings of 2012 International Conference on Manipulation, Manufacturing and Measurement on the Nanoscale (3M-NANO), p80-83. 29 August - 1 September 2012, Xi’an, China. "Best Conference Paper Award". (本文获大会最佳论文奖)
[4] Bingjun Yu, Hanshan Dong, Linmao Qian* and Zhongrong Zhou. "Experimental investigation on the friction-induced protrusive nanostructures on monocrystalline silicon", The 6th China International Symposium on Tribology, 2011. "Best Oral Presentation Award" (本文获大会最佳口头报告奖)
[5] 郭剑、钱林茂*: "摩擦诱导纳米结构的溶液刻蚀研究", 2011年全国青年摩擦学学术会议论文集;(本文获得2011年中国机械工程学会摩擦学分会优秀学术论文奖)
[6] 王冕、钱林茂*: "石墨烯的微观摩擦行为研究", 2011年全国青年摩擦学学术会议论文集;(本文获得2011年中国机械工程学会摩擦学分会优秀学术论文奖)
[7] Bingjun Yu, Jiaxin Yu, Zhongrong Zhou, Linmao Qian* and Jun Luo. "Tribological Behaviors of Self-Assembled Dual-Layer Films in Atmosphere and in Vacuum", Advanced Tribology, 2010, Part 3,III, 546-547, DOI: 10.1007/978-3-642-03653-8_175. (ISTP 收录)
[8] Jiaxin Yu, Bingjun Yu, Linmao Qian* and Zhongrong Zhou. "Nanofretting Wear of Monocrystalline Silicon (100) against Spherical SiO2 Tip in Vacuum", Advanced Tribology, 2010, Part 3, II, 433-434, DOI: 10.1007/978-3-642-03653-8_134. (ISTP 收录)
[9] Xiaomin Liu, Aiqin Liu, Shuxin Qu, Xiaohong Li, Linmao Qian and Zhongrong Zhou. "Study on the Release of Estradiol from UHMWPE Loading Estradiol Wear Debris in vitro", Advanced Tribology, 2010, Part 3, V, 861-862, DOI: 10.1007/978-3-642-03653-8_289. (ISTP 收录)
[10] 余丙军、钱林茂 *:"不 同速度下单晶硅表面摩擦诱导纳米凸结构的形成及其性能表征",2010年全国青年摩擦学学术会议论文集,p200;(本文获得2010年中国机械工程学会 摩擦学分会优秀学术论文奖,15 / 214篇)
[11] 余丙军、杨超、余 家欣、 钱林茂*:"表面隆起——从纳米磨损到纳米加工", 2009年全国青年摩擦学学术会议论文集,p495–498;(本文获得2009年中国机械工程学会摩擦学分会优秀学术论文奖,6 / 123篇)。2009年全国青年摩擦学学术会议,中国湖南长 沙。
[12] 余 家欣、余丙军、 钱林茂*:"单晶硅的切向纳动研究", 2009年中国机械工程学会年会摩擦学专题会议论文集,p499–502. 2009年全国青年摩擦学学术会议,中国湖南长 沙。
[13] 余丙军、余家 欣,钱林茂 *:"单晶硅微观磨损损伤机理研究",2008年中国机械工程学会年会摩擦学专题会议论文集,p138-139。
[14] Qianhua Kan, Guozheng Kang, Linmao Qian, Sujuan Guo. "A temperature-dependent three dimensional super-elastic constitutive model considering plasticity for NiTi alloy", Proceedings of SPIE- The International Society for Optical Engineering, v 7375, 2009, International Conference on Experimental Mechanics 2008, ICEM 2008 (International Conference on Experimental Mechanics 2008, 8-11, Nov. 2008, Nanjing, China), (EI 收录).
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微纳结构制造及应用
纳米摩擦学