基本信息科学研究教育教学English Version代表性学术论文
荣誉称号
l2012年获优秀青年科学基金项目。

l2012年获中组部青年拔尖人才支持计划。

l2011年获教育部新世纪人才支持计划。

l2009年全国百篇优秀博士学位论文获得者，导师：董申教授。

工作经历
时间工作经历
2002年07月——至今留校任教
2010年12月——至今哈尔滨工业大学 教授
2011年07月——至今机电工程学院副院长
2016年12月——至今微系统与微结构制造教育部重点实验室副主任


教育经历
l1995年-1999年 哈尔滨工业大学 获学士学位

l1999年-2001年 哈尔滨工业大学 获硕士学位

l2001年-2007年 哈尔滨工业大学 获博士学位

l2007年-2011年 哈尔滨工业大学 博士后

l2005.12-2006.3 美国南卡罗来纳大学 访问学者

学术任职
l《Nanomanufacturingand Metrology》杂志编委；

l国际生产工程科学院（CIRP）青年会员；

l国际纳米制造学会（ISNM）会员；

l中国微米纳米技术学会高级会员。

研究领域


主要研究方向: 微纳米加工及检测技术研究

团队成员
==

讲授课程
本科生课程

1. 机械制造装备设计

硕士生课程

扫描探针显微技术在精密工程中的应用博士生课程

先进制造科学与技术

招生信息
硕士招生:
微纳米加工及检测

博士招生:
微纳米加工及检测

基本信息
Prof. Yongda Yan

Phone: 86-**

Fax: 86-**

E-mail: yanyongda@hit.edu.cn; yanyd_hit@aliyun.com

Address: P. O. Box 413, Room 205, Centre for Precision Engineering (CPE).

Harbin Institute of Technology. Harbin, Heilongjiang. China

Zip code: 150001

Education Experience

2001.09 -2007.01 Harbin Institute of Technology (Ph. D)

1999.09 -2001.07 Harbin Institute of Technology(Master)

1995.09 -1999.07 Harbin Institute of Technology (Bachelor)

Work Experience

2011-present: Professor/Deputy Dean, School of Mechatronics Engineering, Harbin Institute of Technology.2010-2011: Professor/Assistant to the Dean of School of Mechatronics Engineering, Center for Precision Engineering, Harbin Institute of Technology;2008-2010: Associated Professor/Deputy Director of Center for Precision Engineering, Center for Precision Engineering, Harbin Institute of Technology;2007-2008: Associated Professor, Department of Mechanical Manufacturing and Automation, Harbin Institute of Technology;2005.12-2006.03: Visiting Scholar, University of South Carolina, USA, supervisor: Prof. Xiaodong Li;2002-2007: Teaching assistant/Lecture, Department of Mechanical Manufacturing and Automation, Harbin Institute of Technology.Honors and awards

2012: Winner of National Youth Top-notch Talent Support Program (the first batch)2012: Winner of National Science Fund for Excellent Young Scholars (the first batch)2011: Winner of Program for New Century Talents Support Program2009: Winner of National 100 Excellent Doctoral Theses A List of Publications of Yongda Yan
J. R. Zhang, Y. D. Yan*, Z. J. Hu, X. S. Zhao. Fabrication of copper substrates for Surface-Enhanced Raman Scattering using the microscratching method. Proc IMechE Part B: J Engineering Manufacture : Accepted
J. R. Zhang, Y. D.Yan*, Z. J. Hu, X. S. Zhao. Study on the control process and fabrication of microstructures with a tip-based force control system. Proc IMechE Part B: J Engineering Manufacture : Accepted
Bo Xue, Yongda Yan*, Gaojie Ma, Zhenjiang Hu. Study on the machining process of micro V-shaped groove by using a revolving tip. Proc IMechE Part C: Journal of Mechanical Engineering Science, Accepted
Yongda Yan, Xing Cui, Yanquan Geng* and Yang He. Effect of scratching trajectory and feeding direction on formation of ripple structure on polycarbonate sheet using AFM tip-based nanomachining process. Micro & Nano Letters, Accepted
Yang He, Yongda Yan*, Yanquan Geng*, Xichun Luo. Fabrication of nanodots with high throughput on polymer thin film using AFM tip-based dynamic plowing lithography, submitted Nanoscale Research Letter Accepted.
J. R. Zhang, Y. D.Yan*, Peng Miao, Jianxiong Cai. Study on fabrication of the coated gold PDMS surface with arrayed triangular micro/nanopyramids as SERS substrates, Beilstein Journal of Nanotechnology Accepted.
Y. D. Yan*, J. R. Zhang, et al. Fabrication of arrayed triangular micro-cavities forSERS substrates using the force modulated indention process. RCS Advanced, 2017, 7: 11969-11978
Yanquan Geng,Yongda Yan*,Yang He, Zhenjiang Hu. Investigation on friction behaviorand processing depth prediction of polymer in nanoscale using AFM probe-based nanoscratching method. Tribology International, 2017, 114: 33-41
Yanquan Geng, Yongda Yan*, Emmanuel Brousseau, Yanwen Sun. AFM tip-based mechanical machining of 3D periodic micro and nano-structures via the control of the scratching trajectory. Journal of Materials Processing Technology, 2017, 248: 236-248
Yang He, Yongda Yan*, Yanquan Geng*, Zhenjiang Hu. Fabrication of none-ridge nanogrooves with large-radius probe onPMMA thin-film using AFM tip-based dynamic plowing lithography approach, Journal of Manufacturing Process, 2017, 29: 204-210
Lianhuan Han, Xuesen Zhao, Zhenjiang Hu, Jie Zhang, Yongzhi Cao, Yongda Yan*, Zhong-Qun Tian, Zhao-Wu Tian, Dongping Zhan*. Tip current/positioning close-loop mode of scanning electrochemical microscopy for electrochemical micromachining. Electrochemistry Communications, 2017, 82: 117-120
Yang He, Yongda Yan*, Yanquan Geng*, Emmanuel Brousseau. Dynamic plowing periodic nanostructures using an atomic force microscope, Applied Surface Science, 2018, 427: 1076–1083.
Yanquan Geng, Yongda Yan*, Zhenjiang Hu, Xuesen Zhao. Investigation of the nanoscale elastic recovery of a polymer using an atomic force microscopy-based method, Measurement Science & Technology.2016, 27: 015001
Yongda Yan, Bo Xue, Zhengjiang Hu, Xuesen Zhao. AFM tip characterization by using FFT filtered images of step structures. Ultramicroscopy, 2016, 160: 155-162
Yongda Yan, Bo Xue, Zhenjiang Hu. Machining slight burr formed micro-channels with different moving trajectories of a pyramidal diamond tip. International Journal of Advanced Manufacturing Technology, 2016, 84(9): 2037-2046
Yanquan Geng, Yongda Yan*, Emmanuel B. Brousseau, Bowen Yu, Zhenjiang Hu, Xuesen Zhao. Study of the variations in process outcomes when performing AFM probe-based machining of channels with different feed directions. Precision Engineering,2016, 46: 288-300
Yanquan Geng, Yongda Yan*, Emmanuel Brousseau, Xing Cui, Bowen Yu, Xuesen Zhao, Zhenjiang Hu. Machining complex three-dimensional nanostructures with an atomic force microscope through the frequency control of the tip reciprocating motions. Journal of Manufacturing Science and Engineering-ASME, 2016，138(12): 124501
Yongda Yan, Yang He, Yanquan Geng*, Zhenjiang Hu,Hao Li. Review on AFM tip-based mechanical nanomachining: the influence of the input machining parameters on the outcomes. Current Nanoscience. 2016, 12(6): 666-675
Yongda Yan, Yang He, Yanquan Geng*, Zhenjiang Hu, Xuesen Zhao. Study on the machining properties of PMMA thin-film using AFM tip-based dynamic plowing lithography. 2016, 7(1): Scanning, 2016, 38(6):612-618
Yongda Yan^*, Yanquan Geng , Zhenjiang Hu. Recent advances in AFM tip-based nanomechanical machining. International Journal of Machine Tools & Manufacture.2015, 99: 1-18,
Yanquan Geng, Yongda Yan^*, Yun Zhuang, Zhenjiang Hu. Effects of AFM tip-based direct and vibration assisted scratching methods on nanogrooves fabrication on a polymer resist. Applied Surface Science. 2015, 356: 348-354
Yanquan Geng, Junjie Zhang*, Yongda Yan*, Bowen Yu. Experimental and theoretical investigation of crystallographic orientation dependence of nanoscratching of single crystalline copper. Plos one, 2015.10(7): e**
Yanquan Geng, Bowen Yu, Yongda Yan*, Zhenjiang Hu, Xuesen Zhao. Direction-identical scratching method for fabricating nanostructures using a modified AFM nanoscratching system. Journal of Vacuum Science and Technology B. 2015, 33: 021802
Xue Bo, Yongda Yan*, Jiran Li, Bowen Yu, Zhenjiang Hu, Xuesen Zhao, Qiong Cai. Study on the micro-machining process with a micro three-sided pyramidal tip and the circular machining trajectory. Journal of Materials Processing Technology, 2015, 217: 122-130
Bowen Yu, Yanquan Geng, Yongda Yan* and Zhenjiang Hu. Fabrication of nanochannels with complex three-dimensional structures based on a modified atomic force microscopy nanoscratching system. Micro &Nano Letters.2014,9(10): 707-711
Yongda Yan, Yang Sun, Jiran Li, Zhenjiang Hu, Xuesen Zhao. Controlled nano dots fabrication by rippling polycarbonate surface using an AFM diamond tip. Nanoscale Research Letters. 2014, 9, 372 (1-7)
Yanquan Geng, Yongda Yan*, Bowen Yu, Jiran Li, Qi Zhang, Zhenjiang Hu, Xuesen Zhao. Depth prediction model of nano-grooves fabricated by AFM-based multi-passes scratching method. Applied Surface Science. 2014,313: 615-623
Jianchao Chen, Yongda Yan, Tao Sun*, Yue Qi*, and Xiaodong Li*. Probing the roles of polymeric separators in lithium-ion battery capacity fade at elevated temperatures. Journal of The Electrochemical Society, 2014, 161(9): A1241-A1246
Yongda Yan, Yanquan Geng*, Zhenjiang Hu, Xuesen Zhao, Bowen Yu, Qi Zhang. Fabrication of nanochannels with ladder nanostructure at the bottom using the AFM nanoscratching method. Nanoscale Research Letters. 2014, 9: 212 (2-13)
Jianchao Chen, Yongda Yan, Tao Sun*, Yue Qi, and Xiaodong Li*. Deformation and fracture behaviors of microporous polymer separators for lithium ion batteries. RSC Advances.2014, 4 (29):14904-14914
JJ Zhang*, YD Yan*, X Liu, T Sun, YC Liang. Influence of coherent twin boundary on three-point bending of gold nanowires. Journal of Physics D: Applied Physics. 2014, 47, 195301
YanquanGeng, XuesenZhao, YongdaYan*, ZhenjiangHu^. An AFM-based methodology for measuring spindles axial and radial error motions. Measurement Science and Technology. 2014, 25, 055007
Bo Xue, Yongda Yan*, Zhenjiang Hu, Xuesen Zhao. Study on effects of scan parameters on the image quality and tip wear in AFM tapping mode, Scanning. 2014, 36: 263-269
Yanquan Geng, Yongda Yan*, Yangming Xing, Qi Zhang, Xuesen Zhao, Zhenjiang Hu. Effect of cantilever deformation and tip-sample contact area on AFM nanoscratching. Journal of Vacuum Science and Technology B, 2013, 31(6): 061802
Yang Sun, Yongda Yan*, Yingchun Liang, Zhenjiang Hu, Xuesen Zhao, Tao Sun, S. Dong. Effect of the molecular weight on deformation states of the polystyrene film by AFM single scanning. Scanning. 2013, 35: 308-315
Gen Yanquan, Yan Yongda*, Xing Yangming, et al. Modelling and experimental study of machined depth in AFM-based milling of nanochannels. International Journal of Machine Tools and Manufacture, 2013, 73: 87-96
Geng, Y.Q., Yan, Y.D.*, Zhao, X.S., et al., Fabrication of millimeter scale nanochannels using the AFM tip-based nanomachining method, Applied Surface Science, 2013 266: 386-394
Yongda Yan^*, Xuesen Zhao, Zhenjiang Hu, Dawei Gao. Effects of Atomic Force Microscope silicon tip geometry on large scale nano mechanical modification of the polymer surface. Tribology Transctions，2012, 55: 846-853
Yongda Yan^*, Yang Sun, Yanting Yang，Zhenjiang Hu, Xuesen Zhao. Effects of the AFM tip trace on bundle formation of the polymer surface. Applied Surface Science, 2012, 258: 9656-9663
W. T. Liu, Y. D. Yan^*, Z. J. Hu, X. S. Zhao, J. C. Yan, S. Dong. Study on the nano machining process with a vibrating AFM tip on the polymer surface. Applied Surface Science. 2012, 258: 2620-2626
X. S. Zhao, Y. Q. Geng, W. B. Li,Y.D. Yan^*, Z. J. Hu, et al. Fabrication and measurement of nanostructures on the micro ball surface using a modified AFM, Rev. Sci. Instrum. 2012，83：115104.
Y. D. Yan*, D. W. Gao, Z. J. Hu, X. S. Zhao, J. C. Yan. Polymer nanostructured components machined directly by the Atomic Force Microscopy scratching method. International Journal of Precision Engineering and Manufacturing. 2012. 13(2): 269-273
Yang Sun, Yongda Yan*, Zhenjiang Hu, Xuesen Zhao, Jiucun Yan. Fabricating 3D nanostructures by AFM-based single scanning with a harder cantilever on the PC surface. Tribology International. 2012，47：44-49
Z. J. Hu, Y. D. Yan*, X. S. Zhao, D. W. Gao, Y. Y. Wei, J. H. Wang. Fabrication of large scale nanostructures based on a modified AFM nanomechanical machining system. Review of Scientific Instruments 2011, 82(12): 125102
Yongda Yan, Zhengjiang Hu, Xueshen Zhao, Tao Sun, Shen Dong^*, and Xiaodong Li^*. Top-Down Nanomechanical Machining of Three-Dimensional Nanostructures by Atomic Force Microscopy. Small. 2010, 6(6): 724-728
Y. D. Yan*, T. Sun, S. Dong. Investigation on effects of scratching directions on AFM- based nanomachined surface. Tribology International. 2009, 42: 66-70
Yan YD*, Zhang JJ, Sun T, et al. Nanobending of nanowires: A molecular dynamics study. Applied Physics Letters. 2008, 93(24): 241901.
Yan YD*, Sun T, Zhao XS, et al. Fabrication of microstructures on the surface of a micro/hollow target ball by AFM. Journal of Micromechanics and Microengineering. 2008, 18(3): 35002.
Yan YD*, Sun T, Liang YC, et al. Investigation on AFM-based micro/nano-CNC machining system. International Journal of Machine Tools & Manufacture. 2007, 47(11): 1651-1659.
Y. D. Yan*, T. Sun, S. Dong, Y. C. Liang. Study on effects of the feed on AFM-based nanolithography process using MD simulation. Computational Materials Science. 2007, 40: 1-5
Yan YD*, Sun T, Dong S. Study on effects of tip geometry on AFM nanoscratching tests. Wear. 2007, 262(3-4): 477-483.
Y. D. Yan*, T. Sun, S. Dong. Local surface quality improvement using AFM-based nano mechanical scratching method. Tribology Letters, 2007，28 (2): 157-162
Yan YD*, Sun T, Dong S, et al. Molecular dynamics simulation of processing using AFM pin tool. Applied Surface Science. 2006, 252(20): 7523-7531.
Y. D. Yan*, S. Dong, T. Sun. 3D force components measurement in AFM scratching tests. Ultramicroscopy. 2005, 105: 62-71




发表的学术论文

J. R. Zhang, Y. D. Yan*, Z. J. Hu, X. S. Zhao. Fabrication of copper substrates for Surface-Enhanced Raman Scattering using the microscratching method. Proc IMechE Part B: J Engineering Manufacture : Accepted
J. R. Zhang, Y. D.Yan*, Z. J. Hu, X. S. Zhao. Study on the control process and fabrication of microstructures with a tip-based force control system. Proc IMechE Part B: J Engineering Manufacture : Accepted
Bo Xue, Yongda Yan*, Gaojie Ma, Zhenjiang Hu. Study on the machining process of micro V-shaped groove by using a revolving tip. Proc IMechE Part C: Journal of Mechanical Engineering Science, Accepted
Yongda Yan, Xing Cui, Yanquan Geng* and Yang He. Effect of scratching trajectory and feeding direction on formation of ripple structure on polycarbonate sheet using AFM tip-based nanomachining process. Micro & Nano Letters, Accepted
Yang He, Yongda Yan*, Yanquan Geng*, Xichun Luo. Fabrication of nanodots with high throughput on polymer thin film using AFM tip-based dynamic plowing lithography, submitted Nanoscale Research Letter Accepted.
J. R. Zhang, Y. D.Yan*, Peng Miao, Jianxiong Cai. Study on fabrication of the coated gold PDMS surface with arrayed triangular micro/nanopyramids as SERS substrates, Beilstein Journal of Nanotechnology Accepted.
Y. D. Yan*, J. R. Zhang, et al. Fabrication of arrayed triangular micro-cavities forSERS substrates using the force modulated indention process. RCS Advanced, 2017, 7: 11969-11978
Yanquan Geng,Yongda Yan*,Yang He, Zhenjiang Hu. Investigation on friction behaviorand processing depth prediction of polymer in nanoscale using AFM probe-based nanoscratching method. Tribology International, 2017, 114: 33-41
Yanquan Geng, Yongda Yan*, Emmanuel Brousseau, Yanwen Sun. AFM tip-based mechanical machining of 3D periodic micro and nano-structures via the control of the scratching trajectory. Journal of Materials Processing Technology, 2017, 248: 236-248
Yang He, Yongda Yan*, Yanquan Geng*, Zhenjiang Hu. Fabrication of none-ridge nanogrooves with large-radius probe onPMMA thin-film using AFM tip-based dynamic plowing lithography approach, Journal of Manufacturing Process, 2017, 29: 204-210
Lianhuan Han, Xuesen Zhao, Zhenjiang Hu, Jie Zhang, Yongzhi Cao, Yongda Yan*, Zhong-Qun Tian, Zhao-Wu Tian, Dongping Zhan*. Tip current/positioning close-loop mode of scanning electrochemical microscopy for electrochemical micromachining. Electrochemistry Communications, 2017, 82: 117-120
Yang He, Yongda Yan*, Yanquan Geng*, Emmanuel Brousseau. Dynamic plowing periodic nanostructures using an atomic force microscope, Applied Surface Science, 2018, 427: 1076–1083.
Yanquan Geng, Yongda Yan*, Zhenjiang Hu, Xuesen Zhao. Investigation of the nanoscale elastic recovery of a polymer using an atomic force microscopy-based method, Measurement Science & Technology.2016, 27: 015001
Yongda Yan, Bo Xue, Zhengjiang Hu, Xuesen Zhao. AFM tip characterization by using FFT filtered images of step structures. Ultramicroscopy, 2016, 160: 155-162
Yongda Yan, Bo Xue, Zhenjiang Hu. Machining slight burr formed micro-channels with different moving trajectories of a pyramidal diamond tip. International Journal of Advanced Manufacturing Technology, 2016, 84(9): 2037-2046
Yanquan Geng, Yongda Yan*, Emmanuel B. Brousseau, Bowen Yu, Zhenjiang Hu, Xuesen Zhao. Study of the variations in process outcomes when performing AFM probe-based machining of channels with different feed directions. Precision Engineering,2016, 46: 288-300
Yanquan Geng, Yongda Yan*, Emmanuel Brousseau, Xing Cui, Bowen Yu, Xuesen Zhao, Zhenjiang Hu. Machining complex three-dimensional nanostructures with an atomic force microscope through the frequency control of the tip reciprocating motions. Journal of Manufacturing Science and Engineering-ASME, 2016，138(12): 124501
Yongda Yan, Yang He, Yanquan Geng*, Zhenjiang Hu,Hao Li. Review on AFM tip-based mechanical nanomachining: the influence of the input machining parameters on the outcomes. Current Nanoscience. 2016, 12(6): 666-675
Yongda Yan, Yang He, Yanquan Geng*, Zhenjiang Hu, Xuesen Zhao. Study on the machining properties of PMMA thin-film using AFM tip-based dynamic plowing lithography. 2016, 7(1): Scanning, 2016, 38(6):612-618
Yongda Yan^*, Yanquan Geng , Zhenjiang Hu. Recent advances in AFM tip-based nanomechanical machining. International Journal of Machine Tools & Manufacture.2015, 99: 1-18,
Yanquan Geng, Yongda Yan^*, Yun Zhuang, Zhenjiang Hu. Effects of AFM tip-based direct and vibration assisted scratching methods on nanogrooves fabrication on a polymer resist. Applied Surface Science. 2015, 356: 348-354
Yanquan Geng, Junjie Zhang*, Yongda Yan*, Bowen Yu. Experimental and theoretical investigation of crystallographic orientation dependence of nanoscratching of single crystalline copper. Plos one, 2015.10(7): e**
Yanquan Geng, Bowen Yu, Yongda Yan*, Zhenjiang Hu, Xuesen Zhao. Direction-identical scratching method for fabricating nanostructures using a modified AFM nanoscratching system. Journal of Vacuum Science and Technology B. 2015, 33: 021802
Xue Bo, Yongda Yan*, Jiran Li, Bowen Yu, Zhenjiang Hu, Xuesen Zhao, Qiong Cai. Study on the micro-machining process with a micro three-sided pyramidal tip and the circular machining trajectory. Journal of Materials Processing Technology, 2015, 217: 122-130
Bowen Yu, Yanquan Geng, Yongda Yan* and Zhenjiang Hu. Fabrication of nanochannels with complex three-dimensional structures based on a modified atomic force microscopy nanoscratching system. Micro &Nano Letters.2014,9(10): 707-711
Yongda Yan, Yang Sun, Jiran Li, Zhenjiang Hu, Xuesen Zhao. Controlled nano dots fabrication by rippling polycarbonate surface using an AFM diamond tip. Nanoscale Research Letters. 2014, 9, 372 (1-7)
Yanquan Geng, Yongda Yan*, Bowen Yu, Jiran Li, Qi Zhang, Zhenjiang Hu, Xuesen Zhao. Depth prediction model of nano-grooves fabricated by AFM-based multi-passes scratching method. Applied Surface Science. 2014,313: 615-623
Jianchao Chen, Yongda Yan, Tao Sun*, Yue Qi*, and Xiaodong Li*. Probing the roles of polymeric separators in lithium-ion battery capacity fade at elevated temperatures. Journal of The Electrochemical Society, 2014, 161(9): A1241-A1246
Yongda Yan, Yanquan Geng*, Zhenjiang Hu, Xuesen Zhao, Bowen Yu, Qi Zhang. Fabrication of nanochannels with ladder nanostructure at the bottom using the AFM nanoscratching method. Nanoscale Research Letters. 2014, 9: 212 (2-13)
Jianchao Chen, Yongda Yan, Tao Sun*, Yue Qi, and Xiaodong Li*. Deformation and fracture behaviors of microporous polymer separators for lithium ion batteries. RSC Advances.2014, 4 (29):14904-14914
JJ Zhang*, YD Yan*, X Liu, T Sun, YC Liang. Influence of coherent twin boundary on three-point bending of gold nanowires. Journal of Physics D: Applied Physics. 2014, 47, 195301
YanquanGeng, XuesenZhao, YongdaYan*, ZhenjiangHu^. An AFM-based methodology for measuring spindles axial and radial error motions. Measurement Science and Technology. 2014, 25, 055007
Bo Xue, Yongda Yan*, Zhenjiang Hu, Xuesen Zhao. Study on effects of scan parameters on the image quality and tip wear in AFM tapping mode, Scanning. 2014, 36: 263-269
Yanquan Geng, Yongda Yan*, Yangming Xing, Qi Zhang, Xuesen Zhao, Zhenjiang Hu. Effect of cantilever deformation and tip-sample contact area on AFM nanoscratching. Journal of Vacuum Science and Technology B, 2013, 31(6): 061802
Yang Sun, Yongda Yan*, Yingchun Liang, Zhenjiang Hu, Xuesen Zhao, Tao Sun, S. Dong. Effect of the molecular weight on deformation states of the polystyrene film by AFM single scanning. Scanning. 2013, 35: 308-315
Gen Yanquan, Yan Yongda*, Xing Yangming, et al. Modelling and experimental study of machined depth in AFM-based milling of nanochannels. International Journal of Machine Tools and Manufacture, 2013, 73: 87-96
Geng, Y.Q., Yan, Y.D.*, Zhao, X.S., et al., Fabrication of millimeter scale nanochannels using the AFM tip-based nanomachining method, Applied Surface Science, 2013 266: 386-394
Yongda Yan^*, Xuesen Zhao, Zhenjiang Hu, Dawei Gao. Effects of Atomic Force Microscope silicon tip geometry on large scale nano mechanical modification of the polymer surface. Tribology Transctions，2012, 55: 846-853
Yongda Yan^*, Yang Sun, Yanting Yang，Zhenjiang Hu, Xuesen Zhao. Effects of the AFM tip trace on bundle formation of the polymer surface. Applied Surface Science, 2012, 258: 9656-9663
W. T. Liu, Y. D. Yan^*, Z. J. Hu, X. S. Zhao, J. C. Yan, S. Dong. Study on the nano machining process with a vibrating AFM tip on the polymer surface. Applied Surface Science. 2012, 258: 2620-2626
X. S. Zhao, Y. Q. Geng, W. B. Li,Y.D. Yan^*, Z. J. Hu, et al. Fabrication and measurement of nanostructures on the micro ball surface using a modified AFM, Rev. Sci. Instrum. 2012，83：115104.
Y. D. Yan*, D. W. Gao, Z. J. Hu, X. S. Zhao, J. C. Yan. Polymer nanostructured components machined directly by the Atomic Force Microscopy scratching method. International Journal of Precision Engineering and Manufacturing. 2012. 13(2): 269-273
Yang Sun, Yongda Yan*, Zhenjiang Hu, Xuesen Zhao, Jiucun Yan. Fabricating 3D nanostructures by AFM-based single scanning with a harder cantilever on the PC surface. Tribology International. 2012，47：44-49
Z. J. Hu, Y. D. Yan*, X. S. Zhao, D. W. Gao, Y. Y. Wei, J. H. Wang. Fabrication of large scale nanostructures based on a modified AFM nanomechanical machining system. Review of Scientific Instruments 2011, 82(12): 125102
Yongda Yan, Zhengjiang Hu, Xueshen Zhao, Tao Sun, Shen Dong^*, and Xiaodong Li^*. Top-Down Nanomechanical Machining of Three-Dimensional Nanostructures by Atomic Force Microscopy. Small. 2010, 6(6): 724-728
Y. D. Yan*, T. Sun, S. Dong. Investigation on effects of scratching directions on AFM- based nanomachined surface. Tribology International. 2009, 42: 66-70
Yan YD*, Zhang JJ, Sun T, et al. Nanobending of nanowires: A molecular dynamics study. Applied Physics Letters. 2008, 93(24): 241901.
Yan YD*, Sun T, Zhao XS, et al. Fabrication of microstructures on the surface of a micro/hollow target ball by AFM. Journal of Micromechanics and Microengineering. 2008, 18(3): 35002.
Yan YD*, Sun T, Liang YC, et al. Investigation on AFM-based micro/nano-CNC machining system. International Journal of Machine Tools & Manufacture. 2007, 47(11): 1651-1659.
Y. D. Yan*, T. Sun, S. Dong, Y. C. Liang. Study on effects of the feed on AFM-based nanolithography process using MD simulation. Computational Materials Science. 2007, 40: 1-5
Yan YD*, Sun T, Dong S. Study on effects of tip geometry on AFM nanoscratching tests. Wear. 2007, 262(3-4): 477-483.
Y. D. Yan*, T. Sun, S. Dong. Local surface quality improvement using AFM-based nano mechanical scratching method. Tribology Letters, 2007，28 (2): 157-162
Yan YD*, Sun T, Dong S, et al. Molecular dynamics simulation of processing using AFM pin tool. Applied Surface Science. 2006, 252(20): 7523-7531.
Y. D. Yan*, S. Dong, T. Sun. 3D force components measurement in AFM scratching tests. Ultramicroscopy. 2005, 105: 62-71