王晓杰


博士,博导,研究员,实验室主任
研究方向:智能材料与结构系统

最新动态

  中国科学院合肥物质科学研究院智能机械所研究员、博士生导师、中国科学技术大学兼职博士生导师、悉尼科技大学外聘博士生导师、重庆邮电大学巴渝学者讲座教授、江苏省产业教授。分别于1989、1998、2002年在清华大学、中国科学技术大学、美国内华达大学雷诺分校获得学士、硕士和机械工程博士学位。在美国从事智能材料与智能结构研究十余年,主持或参与美国国家科学基金(NSF)、美国军方及公司企业科研项目近二十项。2013年8月份全职回国受聘中国科学院合肥物质科学研究院,筹建仿生机器人与智能材料实验室,并任实验室主任。2014年入选“中科院引进杰出技术人才”,2017年担任国家科学技术奖会评专家。在国际高水平期刊、会议上发表SCI/EI检索论文150余篇,英文专著三章,授权美国发明专利2项,中国发明专利10项。获得重庆市科技进步一等奖(2017年)一次,中国机械工程学会科技进步二等奖(2022)一次。先后承担或协助完成科技部973计划项目,国防科技创新特区课题及多项自然科学基金、工业支撑、产学研前瞻项目,培养博士和硕士研究生三十多名。


主要著作和论文


● Haofeng Chen, Xuanxuan Yang, Jialu Geng, Gang Ma, Xiaojie Wang“A Skin-Like Hydrogel for Distributed Force Sensing Using an Electrical Impedance Tomography-Based Pseudo-Array Method,”ACS Applied Electronic Materials, 5(3), 1451–1460,2023
● Haofeng Chen, Xuanxuan Yang, Peng Wang, Jialu Geng, Gang Ma, Xiaojie Wang, “A large-area flexible tactile sensor for multi-touch and force detection using electrical impedance tomography,” IEEE Sensors Journal, 22 (7), 7119-7129, 2022
● Gang Ma, Haofeng Chen, Peng Wang, Xiaojie Wang , “Multi-frame constrained block sparse Bayesian learning for flexible tactile sensing using electrical impedance tomography,” IEEE Transactions on Computational Imaging, 8, 438-448,2022
● Ling Gong, Xiaojie Wang, “Thermal-Regulated Adhesion Enhancement and Fast Switching within the Viscoelastic Glass Transition Zone of a Shape Memory Polymer,” Langmuir, 37 (45), 13420–13429,2021
● Haofeng Chen, Gang Ma, Peng Wang, Xiaojie Wang, “A bio-impedance analysis method (BIAM) based on human hand anatomy for hand gesture recognition,” IEEE Transactions on Instrumentation and Measurement, 70 (9), 4506711, 2021
● Gang Ma, Zhiliang Hao, Xuan Wu, Xiaojie Wang,” An optimal Electrical Impedance Tomography drive pattern for human-computer interaction applications,” IEEE Transactions on Biomedical Circuits and Systems, 14(3),402-411,2020
● S Chen and X Wang,“ Multi-scale modeling on tensile modulus of magnetorheological elastomers” Chapter in Magnetorheological Materials and their Applications, Seung-Bok Choi ; Weihua Li (Ed.), Publisher: The Institution of Engineering and Technology, 2019.
● Douxing Pan,Chao Wang, Xiaojie Wang, “Graphene Foam: Hole-Flake Network for Uniaxial Supercompression and Recovery Behavior,”ACS NANO 12 (11), 11491-11502,2018
● 李锐, 朱洪浪, 王彩萍, 耿加露, 王晓杰, 添加羰基铁粉的聚氨酯泡沫特征参数辨识及低频吸声性能研究, 中国科学: 技术科学 48(9), 980-990, 2018
● D Leng, G Liu, L Sun, X Wang, “Wave propagation characteristics of a magnetic granular chain,”Journal of Sound and Vibration 406, 89-103,2017
● B Li, S Dong, X Wu, C Wang, X Wang, J Fan, “Anisotropic thermal property of magnetically oriented carbon nanotube/graphene polymer composites,” Composites Science and Technology 147, 52-61,2017
● SW Chen, R Li, Z Zhang, X Wang, “Micromechanical analysis on tensile modulus of structured magneto-rheological elastomer,” Smart Materials and Structures 25 (3), 035001,2016
● X Wu, X Wang, T Mei, S Sun, “Mechanical analyses on the digital behaviour of the Tokay gecko (Gekko gecko) based on a multi-level directional adhesion model,” Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences,471 (2179), 20150085, 2015
● B Kavlicoglu, F Gordaninejad,Wang, X., "A Unified Approach for Flow Analysis of Magnetorheological Fluids," ASME Journal of Applied Mechanics, 78 (4), 041008, 2011.
● X Wang, F Gordaninejad,“A new magnetorheological fluid-elastomer mount: phenomenological modeling and experimental study,” (featured article) Smart Materials and Structures, 18 (9), 095045, 2009.
● X Wang, Gordaninejad, F., Calgar, M., Liu, Y., Sutrisno, J. and Fuchs, A., “Sensing Behavior of Magneto-Rheological Elastomers ,” Journal of Mechanical Design, ASME, 131 (9), 091004, 2009
● X Wang and F Gordaninejad, “Flow Analysis And Modeling Of Field-Controllable, Electro- and Magneto-Rheological Fluid Dampers.” Transactions of the ASME, Journal of Applied Mechanics, 74(1), 13-22, 2007
● X Wang and F Gordaninejad, “Behavior of Magnetorheological Fluids at High Shear Rates.” Rheologica Acta, 45 (6), 899-908, 2006
● X Wang and F Gordaninejad“Lyapunov-Based Control of a Bridge Using Magneto-Rheological Fluid Dampers,” Journal of Intelligent Materials, System and Structures, 13 (7-8), 415-419,2002
● X Wang , P.Q.Zhang, X., Tang and R.Tao., “Testing and Modeling a Cone-Shaped Squeeze-Film Mode Electrorheological Damper,” Journal of Intelligent Materials, System and Structures, 10 (9), 748-752, 1999
● X Wang and F Gordaninejad“Flow Analysis of Field Controllable Electro-Rheological and Magneto- Rheological Fluids Using Herschel-Bulkley Model,” Journal of Intelligent Materials, System and Structures, 10(8), 601-608,1999