首页 > 研究生培养 > 博导介绍 > 正文

王玉亮 Yuliang Wang

作者:       发布: 2016-02-29      来源:

打印

 

     

王玉亮      Yuliang Wang





出生年月

19807

籍贯

山东





职称

教授

学历

博士研究生





电话

010-82314554

办公室

北航IRC大楼417





系别

机器人研究所

职务





电子信箱

wangyuliang@buaa.edu.cn

传真

010-82314554





个人主页








学习经历

2000.8-2004.7,哈尔滨工业大学,机电学院,机械设计制造及其自动化,学士;

2004.8-2006.7,哈尔滨工业大学,机电学院,机械电子工程,硕士;

2006.8-2009.12,哈尔滨工业大学&美国俄亥俄州立大学(联合培养),机械电子工程,博士;





研究经历





2020.01  至今,北京航空航天大学,必赢626net入口,机器人研究所,教授

2012.09  2019.12,北京航空航天大学,必赢626net入口,机器人研究所,副教授

2018.01  – 2018.02,法国波尔多大学,LOMA,访问教授

2017.07  – 2017.10,荷兰特温特大学,POF,访问教授

2010.1-2012.8,美国俄亥俄州立大学,机械系,PMCLPostdoc  Fellow

2007.9-2009.9,美国俄亥俄州立大学,机械系,NLBB,访问学者;

2006.1-2006.9,韩国科学技术研究院,Tribology Center,访问学者;

2005.9-2006.1,韩国汉阳大学,机械系,Intelligent Sensing & NonDestructive Evaluation  Lab,访问学者;





研究领域





微纳米测量和控制;

微纳流体力学;

视觉传感





荣誉及奖励





2018年国家级青年人才

2018年北京市青年拔尖人才个人项目;

2018年国家自然科学基金中欧人才项目资助;

2017年国家自然科学基金委员会机械学科十佳优秀结题项目;

2016年北京航空航天大学拔尖人才(第一批)项目资助;

2012年教育部“全国百篇优秀博士论文”提名奖

2012年北京航空航天大学“蓝天新秀”

2011美国俄亥俄州James综合癌症中心Pelotonia奖;

2011年哈尔滨工业大学第十三届优秀博士论文;





开授课程





本科生课程:

机械原理(中文,48学时);

机械原理(英文,48学时);

机械设计课程设计A(留学生,160学时)。





教学及科研成果





    长期从事微纳米尺度测量和控制相关研究工作,在超精密空间定位、运动控制,纳米尺度力学性质表征,微纳米流体力学,超高速测量,基于图像处理的图像分割及物体跟踪,以及基于AFM的微操作等方面积累了丰富的经验。  

    作为项目负责人主持国家自然科学基金面上项目和青年项目各一项、北京市自然科学基金面上项目和青年项目各一项、北京市科学技术研究院、教育部博士点基金(青年教师类)、中央高校基本科研业务费等十余项课题。  

    近年来,在包含美国科学院院刊PNAS(影响因子:9.580)和ACS Nano(影响因子:13.903)在内的国际知名期刊发表一作和通讯作者SCI论文40余篇,其中封面文章3篇;SCI他引达400余次;获授权国家发明专利10项。  

    部分学术论文列表:

§   Yuliang Wang*, Zhaoxin Lian, Xiaomeng Cui,  Buyun Chen, Xiaolai Li, Mao Li, Binglin Zeng, and Shusheng Bi, Visual sensing  based ultra-high precision motion control with compensated mechanical drift  across different stages, IEEE/ASME Transactions on Mechatronics, 2020, in  press (IF: 4.943);

§   Dayong  Li, Binglin Zeng, and Yuliang Wang*, Probing the ‘Gas tunnel’ between  neighboring nanobubbles, Langmuir, 2019, 35(47), 15029-15037. (IF: 3.683)

§  Xiaolai  Li, Yuliang Wang*, Mikhail E. Zaytsev, Guillaume Lajoinie, Hai Le The, Johan  G. Bomer, Jan C. T. Eijkel, Harold J. W. Zandvliet, Xuehua Zhang, and Detlef  Lohse*, Plasmonic bubble nucleation and growth in water: the effect of  dissolved air, J. Phys. Chem. C, 2019, 123(38), 23586-23593. (IF: 4.309)

§  Yuliang  Wang*, Binglin Zeng, Yong Zhao, Shuai Li, and Xuehua Zhang*,   Formation  of Polystyrene Microlenses via Transient Droplets from the Ouzo Effect for  Enhanced Optical Imaging, J. Phys. Chem. C, 2019, 123(23), 14327-14337.  DOI:10.1021/acs.jpcc.9b00587. (IF: 4.309)

§  Yuliang  Wang*, Binglin Zeng, Xiaolai Li, and Xuehua Zhang*, Sequential  Evaporation–Induced Formation of Polymeric Surface Microdents via Ouzo  Effect, Adv. Mater. Interfaces 2019, 1900002. (IF: 4.713)

§  Binglin  Zeng, Yuliang Wang*, Xuehua Zhang, and Detlef Lohse*, Solvent Exchange in a  Hele-Shaw Cell: Universality of Surface Nanodroplet Nucleation, Journal of  Physical Chemistry C, 2019, 123(9), 5571-5577. DOI: 10.1021/acs.jpcc.9b00298  (IF: 4.309)

§  Xiaolai  Li, Yuliang Wang*, Binglin Zeng, Yanshen Li, Huanshu Tan, Harold Zandvliet,  Xuehua Zhang*, and Detlef Lohse*, Entrapment and dissolution of microbubbles  inside microwells, Langmuir, 2018, 34(36), 10659-10667. DOI:  10.1021/acs.langmuir.8b02173. (IF: 3.683)

§  Yuliang  Wang*, Mikhail E. Zaytsev, Guillaume P.R. Lajoinie, Hai Le The, Jan C.T.  Eijkel, Albert van den Berg, Michel Versluis, Bert M. Weckhuysen, Xuehua  Zhang, Harold J.W. Zandvliet and Detlef Lohse*, Giant and Explosive Plasmonic  Bubbles by Delayed Nucleation, Proceedings of the National Academy of  Sciences, 2018, 115(30):7676-7681. DOI: 10.1073/pnas.1805912115. (IF: 9.580)

§  Yuliang  Wang, Binglin Zeng, Hadush Tedros Alem, Zaicheng Zhang, Elisabeth Charlaix,  and Abdelhamid Maali*Viscocapillary  response of gas bubbles probed by thermal noise atomic force measurement,  Langmuir, 2018, 34(4), 1371-1375 10.1021/acs.langmuir.7b03857. (IF: 3.683)

§  Yuliang  Wang*, Chunqi Wang, and Zaicheng Zhang, Segmentation of Clustered Cells in  Negative Phase Contrast Images with Integrated Light Intensity and Cell Shape  Information, Journal of Microscopy, 2018, 270(2), 188-199  DOI:10.1111/jmi.12673.  (IF: 1.813)

§  Yuliang  Wang*, Mikhail Zaytsev, Hai Le The, Jan Eijkel, Harold Zandvliet, Xuehua  Zhang*, and Detlef Lohse*, Vapor and gas bubble growth dynamics around  laser-irradiated water-immersed plasmonic nanoparticles. ACS Nano, 2017,  11(2):2045-2051 (IF: 13.903)

§  Yuliang  Wang*, Xiaolai Li, Shuai Ren, Hadush Tedros Alem, Lijun Yang and Detlef  Lohse*, Entrapment of interfacial nanobubbles on nano-structured surfaces.  Soft Matter, 2017, 13(32):5381-5388. DOI:10.1039/C7SM01205E, cover story (IF:  3.399) (Cover story)

§  Yuliang  Wang*, Xiaolai Li, Shusheng Bi, Xiaofeng Zhu, and Jinhua Liu, 3D  micro-particle image modeling and its application in measurement resolution  investigation for visual sensing based axial localization in an optical  microscope, Measurement Science and Technology, 2017,28: 015402 (IF: 1.861)

§  Yuliang  Wang*, Huimin Wang, Shusheng Bi, and Bin Guo, Nano-Wilhelmy investigation of  dynamic wetting properties of AFM tips through tip-nanobubble interaction.  Scientific Reports, 2016,6:30021. (IF: 4.011)

§  Dayong Li,  Yuliang Wang*, Yunlu Pan, Xuezeng Zhao. Measurements of slip length for flows  over graphite surface with gas domains, Applied Physics Letters, 2016,  109:151602. (IF: 3.521)

§  Yuliang  Wang*, Huimin Wang, and Shusheng Bi. “Segmentation of the Clustered Cells  with Optimized Boundary Detection in Negative Phase Contrast Images”, PLoS  One, 2015, 6:0130178. (IF:2.776)

§  Yuliang  Wang*, Huimin Wang, and Shusheng Bi. “Real time drift measurement for  colloidal probe atomic force microscope: a visual sensing approach”, AIP  Advances, 2014, 4: 057130. (IF: 1.579)

§  Yuliang  Wang, Bharat Bhushan*. Boundary slip and nanobubble study in  micro/nanofluidics using atomic force microscopy. Soft Matter, 2010,  6(1):29-66.

§  Yuliang  Wang, Bharat Bhushan*, Xuezeng Zhao. Nanoindents produced by nanobubbles on  ultrathin polystyrene films in water. Nanotechnology, 2009, 20(4):1640-1640.  (Cover Story).

§  Yuliang  Wang, Bharat Bhushan*, Xuezeng Zhao. Improved nanobubble immobility induced  by surface structures on hydrophobic surfaces. Langmuir, 2009,  25(16):9328-36.

§  Yuliang Wang* and  Xuezeng Zhao. “Application of triangular atomic force microscopy cantilevers  to friction measurement with the improved parallel scan method”, Review of  Scientific Instruments, 2009, 80(2): 023704.





学术与社会服务

中国微米纳米技术学会青年工作委员会委员;

中国力学学会流体控制专业委员会委员;

美国真空学会会员;

美国化学学会会员;

国际知名SCI期刊Science  Advances, Langmuir, Applied Physics Letters, Journal of Applied PhysicsReview of Scientific InstrumentsJournal  of Physical Chemistry C, Tribology Letters, Journal of Colloid and Interface  Science, International Nano Letters长期审稿人。





 

 

Curriculum Vitae (CV)

Yuliang Wang ( Ph.D.)

Professor

Robotics  Institute, School of Mechanical Engineering and Automation,

Beihang  University

Room  417, IRC Building, 37 Xueyuan Rd, Haidian District, Beijing, 100191

E-mail: wangyuliang@buaa.edu.cn

Tel:  +86-451-82314554

Education

2006.8 2009.12        Ph.D. Harbin Institute of Technology (Harbin, China) / The Ohio State  University, Mechanical Engineering

2004.8 2006.7          M.S. Harbin Institute of Technology, Mechanical Engineering

2000.8 2004.7          B.S.  Harbin Institute of Technology, Mechanical Engineering

Professional Experience

2020.01 – present,  Professor, Robotics Institute, School of Mechanical Engineering and  Automation, BUAA;

2012.09 – 2019.12, Associate  Professor, Robotics Institute, School of Mechanical Engineering and  Automation, BUAA;

2018.01 – 2018.02, Visiting  Professor, LOMA, Bordeaux University;

2017.07 – 2017.10, Visiting  Professor, POF, Twente University;

2010.1-2012.8, Postdoc  Fellow, PMCL, Department of Mechanical and Aerospace Engineering, The Ohio  State University (USA);

2007.9-2009.9,  Visiting Scholar, NLBB, Department of Mechanical and Aerospace Engineering, The  Ohio State University (USA);

2006.1-2006.9,  Visiting Scholar, Tribolology Center, Korea Institute of Science and  Technology (Seoul, South Korea);

2005.9-2006.1,  Visiting Scholar, Intelligent Sensing & Nondestructive Evaluation  Laboratory, Department of Mechanical Engineering, Hanyang University (Seoul,  South Korea).

Research  Interest

Ultra-high precision  motion/force measurement and control, including the design of piezoelectric  actuator driven and flexure based motion stages, ultra-small motion/force  sensing and control;

Computer image processing based  measurement and control, including visual servo control, image segmentation,  and moving object tracking;

Micro/nanofluidics, including  interfacial micro/nanobubbles;

Cell mechanics, including the  development of metrologies of cell mechanical properties (motility,  morphology, and mechanics).

Academic  Awards and Honors

Yangtze River Scholar – Youth ProgramThe Chinese Ministry of  Education, 2018;

Young  top-notch talent scholar program”, Beijing,  2018;

NSFC  – ERC (National Science Foundation of China – European Research Council)  collaboration program, 2018;

Pelotonia Fellowship. James Comprehensive Cancer Center, the  United States, 2011; See details:

  http://mae.osu.edu/news/2011/09/wang-awarded-pelotonia-postdoctoral-fellowship.  

Nominated National Distinguished Ph.D. Dissertation Award,  Ministry of Education of China, 2012;

Distinguished Ph.D. Dissertation Award, Harbin Institute of  Technology, 2011;

Professional Activities

Committee member of Youth Council,  Chinese Society of Micro-nano Technology (Young program);  

Committee member of Fluid Control  Council, The Chinese Society of Theoretical and Applied Mechanics;  

Member of American Vacuum Society;  

Member of American Chemical Society;  

Reviewers for several prestigious  journals, like Science Advances, Langmuir, Applied Physics Letters, Journal  of Applied PhysicsReview of  Scientific InstrumentsJournal of  Physical Chemistry C, Tribology Letters, Journal of Colloid and Interface  Science, International Nano Letters.