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个人简介

耿延泉博士,男,汉族,1987年12月出生于黑龙江省佳木斯市。现任哈尔滨工业大学机电工程学院教授、博士生导师、哈工大青年科学家实验室负责人,哈尔滨工业大学青年拔尖人才。研究方向为基于原子力显微镜的微纳米加工、检测及应用。主持国家自然科学基金优秀青年基金1项、青年基金1项、黑龙江省自然科学基金优秀青年项目1项、中国博士后特别资助1项、黑龙江省博士后特别资助1项在内的10余项科研项目,并参与国家自然科学基金2项。发表SCI论文100余篇,荣获2017年教育部自然科学二等奖(排名5)、第十九届“哈尔滨工业大学优秀博士学位论文”,中国科协第五届“青年人才托举工程”。现为中国自动化学会制造技术专业委员会委员、《极端制造》国际期刊青年编委、《金刚石与磨料磨具工程》期刊编委、《制造业自动化》期刊青年编辑委员会副主任委员,20余个国际SCI期刊审稿人。 标题 2021.09-至今 教授 哈尔滨工业大学 2020.07-至今 博士生导师 哈尔滨工业大学 2017.12-2020.12 副教授 哈尔滨工业大学 2016.07-2017.12 讲师 哈尔滨工业大学 2016.01-2017.07 Research Associate(合作导师:Emmanuel Brousseau) Cardiff University 教育经历 2005.09-2009.07 机械设计制造及其自动化 哈尔滨工业大学 本科(导师:王广林教授) 2009.09-2011.07 机械制造及其自动化 哈尔滨工业大学 硕士(导师:孙雅洲教授) 2011.09-2016.07 机械制造及其自动化 哈尔滨工业大学 博士(导师:闫永达教授) 2014.10-2015.01 先进制造技术 卡迪夫大学(英国) 访问学者

研究领域

1. 基于原子力显微镜(AFM)的纳米机械加工技术 主要开展基于AFM探针在多种材料表面上进行纳米机械刻划技术的研究,加工尺度包含一维、二维以及准三维纳米结构的加工,通过理论建模及工艺优化可以实现100nm以下纳米结构尺寸的精确控制。 2. 采用AFM纳米机械加工技术制备纳米传感器件 采用AFM纳米机械加工技术制备纳米通道及三维纳米结构,实现纳流控芯片及拉曼增强基底的制备,实现蛋白质分子的特异性检测。 3. 采用纳米切片技术制备毫米级长度纳米线 利用金刚石切片刀(直线刃刀具)对树脂材料包裹的纳米薄膜材料进行纳米薄片切削,制备毫米长度的纳米线,有望应用在化学、生物等传感器制备。

近期论文

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Chen Li, Yuxiu Hu*, Feihu Zhang, Yanquan Geng*, Binbin Meng. "Molecular dynamics simulation of laser assisted grinding of GaN crystals," International Journal of Mechanical Sciences, 239: 107856, (2023). Zhe Dong, Yongda Yan, Ge Peng, Chen Li*, Yanquan Geng*. "Effects of sandwiched film thickness and cutting tool water contact angle on the processing outcomes in nanoskiving of nanowires," Materials and Design, 225: 111438, (2023). Jiqiang Wang, Yongda Yan, Chen Li*, Yanquan Geng*. "Material removal mechanism and subsurface characteristics of silicon 3D nanomilling," International Journal of Mechanical Sciences, 242: 108020, (2023). Zhuo Fang, Yongda Yan, Zihan Li, Aoxiang Zhang, Yanquan Geng*. "Molecular dynamics simulation of the tool geometry effect on nanowire formation behavior during nanoskiving," Materials and Design, 225: 111498, (2023). Jingran Zhang, Siwei Lu, Guangfeng Shi, Wenkun Xie, Yanquan Geng*, Zuobin Wang. "A study on a hybrid SERS substrates based on arrayed gold nanoparticle/graphene/Copper cone cavities fabricated by a conical tip indentation," Journal of Materials Research and Technology, 22: 1558-1571, (2023). Yanquan Geng, Jiqiang Wang, Yongda Yan*, Jianxiong Cai. "Fabrication of nanoindentation array-based SERS substrate using Conical and Berkovich indenters," Journal of Mechanical Engineering Science, accepted, (2023). Yanquan Geng, Suyu Guijian Xiao, Chen Li*, Yongda Yan*. "Effect of the inclined angle of micro-milling tool on the fabrication of the mcirofluidic channel," International Journal of Advanced Manufacturing Technology, 125: 3069-3079, (2023). Zaizhen Lou, Yongda Yan, Chen Li*, Yanquan Geng*. "Study of material deformation behavior of high entrogy alloys by dual-tip probe scratching," Journal of Alloys and Compounds, 946: 169427, (2023). Yang He, Yongda Yan*, Yanquan Geng*. "The effects of feedback control parameters on the formation of protuberances in poly(methyl methacrylate) by dynamic plowing lithography," Precision Engineering, 81: 232-239, (2023). Jiqiang Wang, Yongda Yan, Yanquan Geng*. "Fabrication of chiral nanostructures through vibration-assisted scratching combined with wet etching for surface-enhaced Raman scatting substrates," ACS Applied Nano Materials, 6: 5860-5870, (2023). Zihan Li, Yongda Yan, Xin Hu, Chengyan Xu, Yang Li*, Yanquan Geng*. "Nanomachining of van der Waals nanowires: process and deformation mechanism," International Journal of Machine Tools and Manufacturing, 188: 104018, (2023). Shunyu Chang, Yongda Yan, Yanquan Geng*. "Manipulating nanopatterns on two-dimensional MoS2 Monolayers via atomic force microscopy-based thermomechanical nanolithography for opoelectronic device fabrication," ACS Applied Nano Materials, accepted, (2023). Zhuo Fang, Yongda Yan, Ji Ma, Yang Wang, Yanquan Geng*, Lianhuan Han*, Dongping Zhan. "Fabrication of silver/silver-tetracyanoquinodimethane heterogeneous nanowires using nanoskiving method," Materials Characterization, 204: 113168, (2023). Yanquan Geng, Junshuai Jia, Zihan Li, Jiqiang Wang, Yongda Yan*. “Molecular dynamics simulations of ripple nanostructure formation during nanomachining via atomic force microscopy,” Journal of Mechanical Engineering Science, 236(13): 7293-7303, (2022). Yongda Yan, Jiqiang Wang, Yanquan Geng*, Guoxiong Zhang. "Material removal mechanism of multi-layer metal-film nanomilling," CIRP Annals-Manufacturing Technology, 71:61-64, (2022). Yanquan Geng, Jiqiang Wang, Zihan Li, Yongda Yan, Jingran Zhang*, Yang Gan. "Comparison of the indentation processes using the single indenter and indenter array: a molecular dynamics study," Nanoscale Research Letters, 17: 49, (2022). Yongda Yan, Zihan Li, Jiqiang Wang, Yanquan Geng*. "Atomic simulations of tip-based nanomilling process on single crystal copper," Materials Today Communications, 31: 103709, (2022). Zhuo Fang, Yongda Yan, Yanquan Geng*. "Uncovering the machining mechanism of polycrystalline gold nanowires by nanoskiving," International Journal of Mechanical Sciences, 230: 107545, (2022). Zhuo Fang, Yuhan Feng, Yongda Yan, Yanquan Geng*. "Molecular dynamics simulation study on the effect of crystal orientation on bi-crystal gold nanocrystals in nanoskiving process," Journal of Manufacturing Processes, 81: 224-235, (2022). Yanquan Geng, Yuzhang Wang, Jianxiong Cai, Jingran Zhang, Yongda Yan*. "Fabrication of ordered micro/nanostructures using probe-based force-controlled micromachining system," Chinese Journal of Mechanical Engineering, 35: 139, (2022). Jiqiang Wang, Yongda Yan, Shaowen Wang, Wenbo Shi, Yanquan Geng*. "A probe-based nanometric morphology measurement system using inermittent-contact mode," Review of Scientific Instruments, 93: 113701, (2022). Yuxiu Hu, Chen Li*, Xin Wang, Yanquan Geng*, Guijian Xiao, Feihu Zhang. "Surface quality and cylindricity of ultrasonic elliptical vibration-assisted centerless grinding of micro-rod YAG single crystals," International Journal of Advanced Manufacturing Technology, accepted, (2022). Jiqiang Wang, Yuzhang Wang, Yongda Yan, Yanquan Geng*. "Fabrication of periodic nanostructure using a multi-tip diamond tool: depth prediction and material removal mechanism," International Journal of Advanced Manufacturing Technology, accepted, (2022). Jiqiang Wang, Qiang Zhang, Yongda Yan, Depeng Kong, Yanquan Geng*. "Surface-enhanced Raman scattering integrated with microfluidic device fabricated using atomic force microscopy tip-based nanomachining approach," Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, accepted, (2022). Zihan Li, Yongda Yan, Jiqiang Wang, Chen Li, Yanquan Geng*. "Towards understanding the surface ripping process by periodic reciprocal nanoscratching," Friction, accepted, (2022). Yongda Yan, Yuzhang Wang, Wei Wu, Zaizhen Lou*, Yanquan Geng. "Fabrication of sinusoidal-shaped multi-tip diamond tools by a focused ion beam machining process," Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, accepted, (2022). Peng Fei, Jian Gao, Hui Mao, Yanquan Geng, Yongda Yan, Yuzhang Wang, Saurav Goel, Xichun Luo*. "Sanning Probe Lithography: State-of-the-Art and Future Perspectives," Micromachines, 13(2): 228, (2022). Jiqiang Wang, Yongda Yan, Zihan Li, Yanquan Geng*. “Towards understanding the machining mechanism of the atomic force microscopy tip-based nanomilling process,” International Journal of Machine Tools and Manufacture, 162: 103701, (2021). Shunyu Chang, Yongda Yan, Bo Li, Yanquan Geng*. “Nanoscale manipulation of materials patterning throughthermomechanical nanolithography using atomic force microscopy,” Materials and Design, 202:109547, (2021). Jiqiang Wang, Yongda Yan, ZihanLi, Yanquan Geng*, XichunLuo, PengfeiFan. “Processing outcomes of atomic force microscope tip-based nanomilling with different trajectories on single-crystal silicon,” Precision Engineering, 72: 480-490, (2021). Yanquan Geng, Junshuai Jia, Zihan Li, Yu Liu, Jiqiang Wang, Yongda Yan*, Yang Gan. “Modeling and experimental study of machining outcomes when conducting nanoscratching using dual-tip probe on single-crystal copper,” International Journal of Mechanical Sciences, 206: 106649, (2021). Zhuo Fang, Yongda Yan, Yanquan Geng*. “Recent Progress in the Nanoskiving Approach: A Review of Methodology, Devices, and Applications,” Advanced Materials Technologies, 6(12): 2100477, (2021). Jiqiang Wang, Yongda Yan, Bosen Jia, Yanquan Geng*. “Study on the processing outcomes of the atomic force microscopy tip-based nanoscratching on GaAs,” Journal of Manufacturing Processes, 70: 238-247, (2021). Jiqiang Wang, Qiang Zhang, Yongda Yan, Yu liu, Yanquan Geng*. "Fabrication of periodic nanostructures for SERS substrates using multi-tip probe-based nanomachining approach," Applied Sruface Science, accepted, (2021). Shunyu Chang, Yanquan Geng, Yongda Yan*. "Tip-based nanomachining on thin-films: a mini review," Nanomanufacturing and Metrology, accepted, (2021). Liyang Mao, Yanquan Geng, Yongzhi Cao, Yongda Yan*. “Uniform high-reflectivity silver film deposited by planar magnetron sputtering,” Vacuum, 185: 109999, (2021). Bo Xue, Chunmei Yang*, Yanquan Geng, Yongda Yan*. “A novel fabrication of micro/nano hierarchical grating structures for structural coloration by using revolving tip-based machining method,” Journal of Manufacturing Processes, 62: 202-212, (2021). Yuzhang Wang, Yanquan Geng, Guo Li, Jiqiang Wang, Zhuo Fang, Yongda Yan*. “Study of machining indentations over the entire surface of a target ball using the force modulation approach,” International Journal of Extreme Manufacturing, 3: 035102, (2021). Pengfei Fan, Saurav Goel*, Xichun Luo*, Yongda Yan, Yanquan Geng, YangHe. “Origins of ductile plasticity in a polycrystalline gallium arsenide during scratching: MD simulation study,” Applied Surface Science, 552: 149489, (2021). Pengfei Fan, Saurav Goel*, Xichun Luo*, Yongda Yan, Yanquan Geng, Yang He, Yuzhang Wang. “Molecular dynamics simulation of AFM tip-based hot scratching of nanocrystalline GaAs,” Materials Science in Semiconductor Processing, 130: 105832, (2021). Pengfei Fan, Saurav Goel, Xichun Luo*, Yongda Yan, Yanquan Geng, Yuzhang Wang. “An atomistic investigation on the wear of diamond during atomic force microscope tip-based nanomachining of gallium arsenide,” Computational Materials Science, 187: 110115, (2021). Zhe Dong, Yanquan Geng, Ge Peng, Zhuo Fang, Yongda Yan*. "Processing Defect Study and Prevention in Coutinuous Stepped Nanostructures Fabricated by Nanoskiving," Vacuum, 193: 110497, (2021). Jiqiang Wang, Yanquan Geng, Zihan Li, Yongda Yan*, Xichun Luo, Pengfei Fan. "Study on the vertical ultrasonic vibration-assisted nanomachining process on single-crystal silicon," Journal of Manufacturing Science and Engineering, accepted, (2021). Yuzhang Wang, Pengfei Fan, Xichun Luo, Yanquan Geng, Saurav Goel, Wei Wu, Guo Li, Yongda Yan*. "Fabrication of three-dimensional sin-shaped ripples using a multi-tip diamond tool based on the force modulation approach," Journal of Manufacturing Processes, 72: 262-273, (2021). Yuzhang Wang, Yanquan Geng*, Yongda Yan, Jiqiang Wang, Zhuo Fang. “Robust model predictive control of a micro machine tool for tracking a periodic force signal,” Optimal Control Applications and Methods, DOI:10.1002/oca.2642, (2020). Zhuo Fang, Yanquan Geng*, Jiqiang Wang, Yongda Yan*, Guoxiong Zhang. “Mechanical properties of gold nanowires prepared by nanoskiving approach,” Nanoscale, 12: 8194, (2020). Jiqiang Wang, Yongda Yan, Shunyu Chang, Yimin Han, Yanquan Geng*. “Label-free surface-enhanced Raman spectroscopy detection of absorption manner of lysozyme based on nanodots arrays,” Applied Surface Science, 509: 145332, (2020). Bo Li, Yanquan Geng*, Yongda Yan. “Nano/Microscale Thermal Field Distribution: Conducting Thermal Decomposition of Pyrolytic-Type Polymer by Heated AFM Probes,” Nanomaterials, 10: 483, (2020). Jiqiang Wang, Yongda Yan, Shunyu Chang, Tong Wang, Yanquan Geng*, Yang Gan. “Study of the formation mechanism of bundle structures using AFM tip-based nanoscartching approach,” Tribology International, 142: 106000, (2020). Zihan Li, Yongda Yan, Jiqiang Wang, Yanquan Geng*. “Molecular Dynamics Study on Tip-Based Nanomachining: A Review,” Nanoscale Research Letters, 15: 201, (2020). Yongda Yana, Zihan Li, Junshuai Jia, Jiqiang Wang, Yanquan Geng*. “Molecular dynamics simulation of the combination effect of the tip inclination and scratching direction on nanomachining of single crystal silicon,” Computational Materials Science, 186: 110014, (2020). Bo Xue, Yanquan Geng, Yongda Yan*, Gaojie Ma, Dong Wang, Yang He. “Rapid prototyping of microfluidic chip with burr-free PMMA microchannel fabricated by revolving tip-based micro-cutting,” Journal of Materials Processing Technology, 277: 116468, (2020). Rongkai Tan, Xuesen Zhao, Shusen Guo, Xicong Zou, Yang He, Yanquan Geng, Zhenjiang Hu, Tao Sun*. “Sustainable production of dry-ultra-precision machining of Ti–6Al–4V alloy using PCD tool under ultrasonic elliptical vibration-assisted cutting,” Journal of Cleaner Production, 248: 119254, (2020). Pengfei Fan, Fei Ding, Xichun Luo*, Yongda Yan, Yanquan Geng, Yuzhang Wang. “A Simulated Investigation of Ductile Response of GaAs in Single?Point Diamond Turning and Experimental Validation,” Nanomanufacturing and Metrology, 3: 239-250, (2020). Yanquan Geng, Jiqiang Wang, Jingran Zhang, Jianxiong Cai, Yongda Yan*. “A probe-based force-controlled nanoindentation system using an axisymmetric four-beam spring,” Precision Engineering, 56: 530-536, (2019). Yanquan Geng, Hao Li, Yongda Yan*, Yang He, Xuesen Zhao. “Study on material removal for nanochannels fabrication using atomic force microscopy tip-based nanomilling approach,” Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 233 (2): 461-469, (2019). Yongda Yan, Jiqiang Wang, Shunyu Chang, Yanquan Geng*, Leyi Chen, Yang Gan. “Nanofluidic devices prepared by an atomic force microscopy-based single-scratch approach,” RSC Advances, 9: 38814, (2019). Jiqiang Wang, Yongda Yan, Yanquan Geng*, Yang Gan, Zhuo Fang. “Fabrication of polydimethylsiloxane nanofluidic chips under AFM tip-based nanomilling process,” Nanoscale Research Letters, 14: 136, (2019). Yongda Yan, Shunyu Chang, Tong Wang, Yanquan Geng*. “Scratch on polymer materials using AFM tip-based approach: a review,” Polymers, 11 (10): 1590, (2019). Yongda Yan, Yang He, Gaobo Xiao, Yanquan Geng*, Mingjun Ren. “Effects of diamond tip orientation on the dynamic ploughing lithography of single crystal copper,” Precision Engineering, 57: 127-136, (2019). Yang He, Yongda Yan*, Jiqiang Wang, Yanquan Geng*, Bo Xue, Xuesen Zhao. “Study on the effects of the machining parameters on the fabrication of nanoscale pits using the dynamic plowing lithography approach,” IEEE Transactions on Nanotechnology, 18: 351-357, (2019). Fanxing Kong, Tao Sun*, Yanquan Geng*, Jinghe Wang, Qiang Zhang. “Measurement method of Wolter-I type mandrel based on a contact-type profilometer,” Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 233 (11): 2173-2182, (2019). Yongda Yan, Yuzhang Wang, Jiqiang Wang, Yanquan Geng*. “Effect of material removal state on the selection of theoretical models when scratching single-crystal copper using the load modulation approach,” Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, https://doi.org/10.1177/0954405419883055, (2019). Gaobo Xiao, Yang He, Yanquan Geng*, Yongda Yan*, Mingjun Ren. “Molecular dynamics and experimental study on comparison between static and dynamic ploughing lithography of single crystal copper,” Applied Surface Science, 463: 96-104, (2019). Fanxing Kong, Tao Sun*, Yanquan Geng*. “A precision polishing method for Wolter-I type optical mandrel,” International Journal of Advanced Manufacturing Technology, 101 (5-8): 1293-1302, (2019). Bo Xue, Yanquan Geng, Yongda Yan*, Yazhou Sun. “Effects of AFM tip wear on evaluating the surface quality machined by ultra-precision machining process,” International Journal of Advanced Manufacturing Technology, https://doi.org/10.1007/s00170-019-03958-x, (2019). Bo Xue, Yanquan Geng, Yongda Yan*, Jiqiang Wang, Yazhou Sun. “Finite element analysis of revolving tip-based cutting process,” Journal of Manufacturing Processes, 47: 141-156, (2019). Bo Xue, Yanqun Geng, Dong Wang, Yazhou Sun, Yongda Yan*. “Improvement in surface quality of microchannel structures fabricated by revolving tip-based machining,” Nanomanufacturing and Metrology, 2 (1): 26-35, (2019). Xiaole Wang, Lianhuan Han, Yanqun Geng, Xuesen Zhao, Yongzhi Cao, Zhenjiang Hu, Dongping Zhan, Yongda Yan*. “The simulation and research of etching function based on scanning electrochemical microscopy,” Nanomanufacturing and Metrology, 2 (3): 160-167, (2019). Yanquan Geng, Yongda Yan*, Jiqiang Wang, Emmanuel Brousseau, Yanwen Sun, Yazhou Sun. “Fabrication of periodic nanostructures using AFM tip-based nanomachining: combining groove and material pile-up topographies,” Engineering, 4: 787-795, (2018). Yanquan Geng, Emmanuel B. Brousseau, Xuesen Zhao, Micheal Gensheimer, Christopher R. Bowen. “AFM tip-based nanomachining with increased cutting speed at the tool-workpiece interface,” Precision Engineering, 51: 536-544, (2018). Yongda Yan, Jiqiang Wang, Yanquan Geng*, Zhuo Fang, Yang He. “Implementation of AFM tip-based nanoscratching process on single crystal copper: Study of material removal state,” Applied Surface Science, 459: 723-731, (2018). Yongda Yan, Erchao Zhou, Yanquan Geng*, Yang He, Xuesen Zhao. “Modelling and experimental study of nanoscratching process on PMMA thin-film using AFM tip-based nanomachining approach,” Precision Engineering, 54: 138-148, (2018). Yang He, Yongda Yan*, Yanquan Geng*, Zhuo Fang. “Energy dissipation contributed on the machined depth via dynamic plowing lithography of atomic force microscopy,” Journal of Vacuum Science & Technology B, 36: 041802, (2018). Yang He, Yongda Yan*, Yanquan Geng*, Emmanuel Brousseau. “Fabrication of periodic nanostructures using dynamic plowing lithography with the tip of an atomic force microscope,” Applied Surface Science, 427: 1076-1083, (2018). Yanqun Geng, Yongda Yan*, Jiqiang Wang, Yun Zhuang. “Fabrication of nanopatterns on silicon surface by combining AFM-based scratching and RIE methods,” Nanomanufacturing and Metrology, 1 (4): 225-235, (2018). Yanquan Geng, Yongda Yan. “Three-dimensional fabrication of micro/nanostructure using scanning probe lithography,” J. Yan (ed.), Micro and Nano Fabrication Technologies, https://doi.org/10.1007/978-981-10-6588-0_13-1, (2018). Yanquan Geng, Jiqiang Wang, Hao Li, Yongda Yan*. “Study on the effects of feed directions on chip formation and machined depth when implementing nanoscratching by nanomilling approach,” 4th CIRP Conference on Surface Integrity (CSI 2018), Procedia CIRP, 71: 285-288, (2018). Yanquan Geng, Yongda Yan*, Yang He, Zhenjiang Hu. “Investigation on friction behavior and processing depth prediction of polymer in nanoscale using AFM probe-based nanoscratching method,” Tribology International, 114: 33-41, (2017). Yanquan Geng, Yongda Yan*, Emmanuel Brousseau, Yanwen Sun. “AFM tip-based mechanical nanomachining of 3D micro and nano-structures via the control of the scratching trajectory,” Journal of Materials Processing Technology, 248: 236-248, (2017). Yanquan Geng, Yuzhang Wang, Yongda Yan, Xuesen Zhao. “A novel AFM-based 5-axis nanoscale machine tool for fabrication of nanostructures on a micro ball,” Review of Scientific Instruments, 88: 115109, (2017). Yongda Yan, Xing Cui, Yanquan Geng*, Yang He. “Effect of scratching trajectory and feeding direction on formation of ripple structure on polycarbonate sheet using AFM tip-based nanomachining process,” Micro and Nano Letters, 12 (12): 1011-1015, (2017). Yang He, Yanquan Geng*, Yongda Yan*, Xichun Luo. “Fabrication of nanoscale pits with high throughput on polymer thin film using AFM tip-based dynamic plowing lithography,” Nanoscale Research Letters, 12: 544, (2017). Tao Sun, Fanxing Kong, Yanquan Geng*, Quanquan Han*. “Precision Turning of optical mandrel with high steepness axisymmetric aspheric surface using arc-edged diamond cutter,” International Journal of Advanced Manufacturing Technology, 93 (9-12): 4243-4252, (2017). Yang He, Yongda Yan*, Yanquan Geng*, Zhenjiang Hu. “Fabrication of none-ridge nanogrooves with large-radius probe on PMMA thin-film using AFM tip-based dynamic plowing lithography approach,” Journal of Manufacturing Processes, 29: 204-210, (2017). Quanquan Han, Yanquan Geng, Rossi Setchi*, Franck Lacan, Dongdong Gu, Sam Evans. “Macro and nanoscale wear behavior of Al-Al2O3 nanocomposite fabricated by selective laser melting,” Composites Part B Engineering, 127: 26-35, (2017). Yanquan Geng, Yongda Yan*, Emmanuel B. Brousseau, Bowen Yu, Shengnan Qu, Zhenjiang Hu, Xuesen Zhao. “Processing outcomes of the AFM probe-based machining approach with different feed directions,” Precision Engineering, 46: 276-288, (2016). Yanquan Geng, Yongda Yan*, Emmanuel B. Brousseau, Cui Xing, 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,” Transactions of the ASME-Journal of Manufacturing Science and Engineering, 138: 124501, (2016). Yongda Yan, Yang He, Yanquan Geng*, Zhenjiang Hu, Xuesen Zhao, Hao Li. “Review on AFM tip-based nanomechanical machining: the influence of the input machining parameters on the outcomes,” Current Nanoscience, 12(6): 666-675, (2016). Feihu Zhang, Binbin Meng, Yanquan Geng*, Yong Zhang, Zhipeng Li. “Frication behavior in nanoscratching of reaction bonded silicon carbide ceramic with Berkovich and sphere indenters,” Tribology International, 97: 21-30, (2016). Feihu Zhang, Binbin Meng, Yanquan Geng*, Yong Zhang. “Study on the machined depth when scratching on 6H-SiC using Berkovich indenter: modelling and experimental study,” Applied Surface Science, 368: 449-455, (2016). Yongda Yan, Yang He, Yanquan Geng*, Zhenjiang Hu, Xuesen Zhao. “Characterization study on machining PMMA thin-film using AFM tip-based dynamic plowing lithography,” Scanning, 38 (6): 612-618, (2016). R. S. J. Al-Musawi, E. B. Brousseau*, Yanquan Geng, F. M. Borodich. “Insight into mechanics of AFM tip-based nanomachining: bending of cantilevers and machined grooves,” Nanotechnology, 27: 385302, (2016). 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, 33(2): 021802, (2015). 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, 356: 348-354, (2015). Yanquan Geng, Junjie Zhang*, Yongda Yan*, Bowen Yu, Lin Geng, Tao Sun. “Experimental and theoretical investigation of crystallographic orientation dependence of nanoscratching of single crystalline copper,” PloS One, 10(7): e0131886, (2015). Yanquan Geng, Yongda Yan*, Zhenjiang Hu, Xuesen Zhao. “Investigation on the nanoscale elastic recovery of a polymer using an atomic force microscopy-based method,” Measurement Science and Technology, 27 (1): 015001, (2015). Yongda Yan*, Yanquan Geng, Zhenjiang Hu. “Recent advances in AFM tip-based nanomechanical machining,” International Journal of Machine Tools and Manufacture, 99: 1-18, (2015). Haitao Liu, Yazhou Sun*, Yanquan Geng, Debin Shan. “Experimental research of milling force and surface quality for TC4titanium alloy of micro-milling,” International Journal of Advanced Manufacturing Technology, 79: 705-716, (2015). Ying Yuan, Junjie Zhang*, Tao Sun*, Cong Liu, Yanquan Geng, Yongda Yan, Peng Jin. “Crystallographic orientation-dependent pattern replication in direct imprint of aluminum nanostructures,” Nanoscale Research Letters, 10: 96, (2015). 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, 313: 615-623, (2014). Yanquan Geng, Xuesen Zhao, Yongda Yan*, Zhenjiang Hu. “An AFM-based methodology for measuring axial and radial error motions of spindles,” Measurement Science and Technology, 25(5): 055007, (2014). Yongda Yan, Yanquan Geng*, Zhenjiang Hu, Xuesen Zhao, Bowen Yu, Qi Zhang. “Fabrication of nanochannels with ladder nanostructure at the bottom using AFM nanoscratching method,” Nanoscale Research Letters, 9: 212, (2014). Bowen Yu, Yanquan Geng, Yongda Yan*, Zhenjiang Hu. “Fabrication of nanochannels with complex three-dimensional structures based on a modified atomic force microscopy nanoscratching system,” Micro and Nano Letters, 9, 707-711, (2014). Yongda Yan*, Yu Zhuang, Yanquan Geng, Long Cheng, Jiran Li, “Effect of elastic modulus of PMMA films on its machinability by AFM-based nanoscratching method,” 7th International Symposium on Advanced Optical Manufacturing and Testing Technologies (AOMATT 2014), 9283: 92830F (2014). 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, 31(6): 061802, (2013). Yanquan Geng, Yongda Yan*, Yangming Xing, Xuesen Zhao, Zhenjiang Hu. “Modelling and experimental study of machined depth in AFM-based milling of nanochannels,” International Journal of Machine Tools and Manufacture, 73: 87-96, (2013). Yanquan Geng, Yongda Yan*, Xuesen Zhao, Zhenjiang Hu, Yingchun Liang, Tao Sun, Shen Dong. “Fabrication of millimeter scale nanochannels using the AFM tip-based nanomachining method,” Applied Surface Science, 266: 386-394, (2013). Xuesen Zhao, Yanquan Geng, Wenbin Li, Yongda Yan*, Zhenjiang Hu, Tao Sun, Yingchun Liang, Shen Dong. “Fabrication and measurement of nanostructures on the micro ball surface using a modified atomic force microscope,” Review of Scientific Instruments, 83(11): 115104, (2012).

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