王秀锋导师主页
基本信息
姓名: 王秀锋
职称: 教授
单位电话:
电子信箱: onexf@xtu.edu.cn
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个人简介

王秀锋,教授,博士生导师。从事与可穿戴微流控与传感器相关的材料表面特殊浸润性调控,柔性薄膜的表界面力学等研究。近两年来,主导或独立发展了一系列可穿戴器件相关的连续介质力学模型包括:任意形状板壳理论分析微流腔顶盖稳定性、封闭液腔内置多孔介质的毛细吸入反问题、基于元胞自动机算法模拟可拉伸应变传感器导电性能等。已在综合性期刊PNAS、Sci.Rep.等,物理和力学类PRB、APL、IJSS、JCP等,材料类Small、Adv.Mater.Technol.、Langmuir等期刊上发表论文数十篇。与美国西北大学黄永刚院士、美国科罗拉多矿业大学M. Eberhart教授、澳大利亚墨尔本皇家理工大学文翠娥教授和美国洛斯阿拉莫斯国家实验室D. Tomasz博士等著名学者课题组长期保持科研合作与交流。

研究方向


我们面向可穿戴人体健康医疗器件应用,以智能材料与结构力学为指导思想,开展柔性微流控及传感器等可穿戴器件的研究。


科研项目

在研项目经费来源于如下机构 :


  

       

论文专著

出版专著:

王秀锋 独著,《材料固体力学概要及应用实例》,湘潭大学出版社 (20万字,ISBN 978-7-5687-0328-4),2019.07.


部分已/待发表的论文

n  M. Chen, Y. Liu, H. Wang, B. Zhong, X. Liang, S.D. Cheng, W.X. Cheng, W.J. Xia, X.F. Wang(*), Surperhydrophobic PDMS surface with controllable adhesion and its anti-roof-collapse application in microfluidics, submitted, 2019. 

n  Y. Liu, H. Fan, K. Li, N. Zhao, Y. Ma, X. Ouyang, X.F. Wang(*唯一通讯), Strain-isolation bridge structure to improve stretchability of highly sensitive strain sensors, Advanced Materials Technologies (a journal within Adv. Mater. family), 2019, 4:1900309.  

n  X.F. Wang, Y.X. Zhang, S.D Chen, Y.G. Xue, H.W. Luan, Y.J. Ma, Anti-self-collapse design of epidermic microfluidic reservoir via pillar supporting, Applied Physics Letters, 2018, 113:163702.  

n  Y. Ma, J. Choi, A. Fargett, Y. Xue, H. Chung, J. Lee, X.F. Wang, Z. Xie, D. Kang, H. Wang, S. Hani, S. Kang, Y. Kang, X. Yu, M. Slepian, M. Raj, Jeffrey B. Model, X. Feng, R. Ghaffari, J.A. Rogers, Y.G. Huang, Relation between blood pressure and pulse wave velocity for human arteries, PNAS, 2018, 115:11144.

n  S.D. Chen, H. Wang, Z.T. Wan, L. Chen, Y.C.Y. Liu, H.H. Fan, B.W. Zhong, X.F. Wang(*), Facile fabrication of superhydrophobic alloy surface based on room temperature vulcanized silicone modification, Journal of Coatings Technology and Research, 2019, available online.    

n  Z.T. Wan, Y.C.Y. Liu, S.D. Chen(*), K. Song, P. Yu, N. Zhao, X.P. Ouyang, X.F. Wang(*), Facile fabrication of a highly durable and flexible MoS2@RTV sponge for efficient oil-water separation, Colloids and Surfaces A, 2018, 546:237-243.    

n  Z.T. Wan, D. Li, Y.L. Jiao, X.P. Ouyang, L.Q. Chang(*), X.F. Wang(*), Bifunctional MoS2 coated melamine-formaldehyde sponges for efficientoil-water separation and water-soluble dye removal, Applied Materials Today, 2017, 9:551-559.    

n  X.F. Wang, Y.J. Ma(*), Y.G. Xue, H.W. Luan, M. Pharr, X. Feng, J.A. Rogers, Y.G. Huang(*), Collapse of liquid-overfilled strain-isolation substrates in wearable electronics, International Journal of Solids and Structures, 2017, 117:137-142.    

n  Y.J. Ma, M. Pharr, L. Wang, J. Kim, U.H. Liu, Y.G. Xue, R. Ning, X.F. Wang, H.U. Chung, X. Feng, J.A. Rogers(*), Y.G. Huang(*), Soft elastomers with ionic liquid-filled cavities as strain isolating substrates for wearable electronics, Small, 2017, 13(9):1602954-10.

n  X.J. Gao, X.F. Wang(*), X.P. Ouyang, C. Wen(*), Flexible superhydrophobic and superoleophilic MoS2 sponge for highly efficient oil-water separation, Scientific Reports, 6, 2016:27207.    

n  X.J. Gao, W.J. Tong, X.P. Ouyang,X.F. Wang(*), Facile fabrication of a superhydrophobic titanium surface with mechanical durability by chemical etching, RSC Advances, 2015, 5: 84666-84672.    

n  X.F. Wang, T.E. Jones, Y. Wu, Z.P. Lu(*), S. Halas, T. Durakiewicz, M. E. Eberhart(*), An electronic criterion for assessing intrinsic brittleness of metallic glasses, The Journal of Chemical Physics, 2014, 1414(2):24503.    

n  Y. W. Liu, X. P. Ouyang, S. Halas, T. Durakiewicz,X. F. Wang(*), Impact of nitrogen on effective work function of Metal/Oxide stack: a first-principles study of the Pt/HfO2 interface. Solid State Communications, 2015, 207C:44-48.    

n  X. F. Wang(*), L. He, S. Halas, T. Pieńkos, J. G. Lin, T. Durakiewicz, The canonical work function-strain relationship of the Pt metal: a first-principles approach to metal-gate transistor optimization, Applied Physics Letters, 2013, 102(22):223504.    

n  T. Tian, X.F. Wang(*), W. Li, Ab initio calculations on elastic properties in L12 structure Al3X and X3Al-type (X = transition or main group metal) intermetallic compounds, Solid State Communications, 2013, 156(1):69-75. 

n  X. F. Wang, T. E. Jones, W. Li, Y. C. Zhou, Extreme Poisson’s ratios and their electronic origin in B2 CsCl-type AB intermetallic compounds, Physical Review B, 2012, 85(13): 134108.    

n  X. F. Wang, W. Li, J. G. Lin, Y. Xiao, Electronic work function of Cu (100) surface under different strain states, Europhysics Letters, 2010, 89(6):66004.    

n  X. F. Wang, W. Li, G. P. Fang, C. W. Wu, J. G. Lin, First-principles calculations on the electronic structure and cohesive properties of titanium stannides, Intermetallics, 2009, 17(9):768-773. 

n  X. F. Wang, W. Li, Z. Peng, Correlation between ductility and work function in NiAl-Ce-Cr alloys, Philosophical Magazine Letters, 2009, 89(2):120-125.

n  J. G. Lin, X. F. Wang(*), C. Wen, Theoretical Study on the Behavior of Superplastic Forming / Diffusion Bonding of Bulk Metallic Glasses, Materials Science and Technology, 2009, 26(3):361-366. 

n  X. F. Wang, Z. C. Luo, X. B. Liu, J. G. Lin, Probing into diffusion bonding of laser-surface-treated TiAl alloy / Ti-6Al-4V alloy, Science and Technology of Welding and Joining, 2008, 13(5):452-455.

n  X. F. Wang, M. Ma, X. B. Liu, J. G. Lin, Interface characteristics in diffusion bonding of Gamma-TiAl with Ti-6Al-4V, Journal of Materials Science, 2007, 42(11):4004-4008. 

n  X. F. Wang, X. Q. Wu, J. G. Lin, M. Ma, Effect of the heat treatment on the corrosion behaviour of amorphous Al88Ni6La6 alloy in 0.01 M NaCl solution, Materials Letters, 2007, 61(8-9):1715-1717.    

n  X.F. Wang, Z. C. Luo, G. S. Yu, J. G. Lin, Application of a diffusion bonding model to superplastic γ-TiAl alloys, Materials Science and Technology, 2006, 22(2):186-192. 

n  G. P. Fang, W. Li, X. F. Wang, G. J. Qiao, Droplet Motion on Designed Microtextured Superhydrophobic Surfaces with Tunable Wettability. Langmuir, 2008, 24(20):11651-11660.

n  L. He, Y.W. Liu, W.J. Tong, J.G. Lin, X.F. Wang(*), Surface energy engineering of Cu surface by strain: first-principles calculations, Surface Review and Letters, 2013, 20(6):66004-5.

n  Y. N. Ge, W. B. Song, X. F. Wang, J. G. Lin, W. Li, Temperature and strain rate dependence of deformation behavior of Zr65Al7.5Ni10Cu17.5, Materials Chemistry and Physics, 2010, 124(1):25-28.

n  C. Y. Wu, Y. H. Xin, X. F. Wang, J. G. Lin, Effects of Ta content on the phase stability and elastic properties of β Ti-Ta alloys from first-principles calculations, Solid State Sciences, 2010, 12(12):2120-2124.

n  G. S. Yu, J. G. Lin, C. Wen, X. F. Wang, F. H. Wang, Effect of relaxation on pressure sensitivity index in a Zr-based metallic glass, Materials Science and Engineering A, 2007, 460-461(1-2):58-62.

 

欢迎材料、化学和微电子等相关的优秀学子报考/调剂研究生(特别欢迎“投身学术生涯”的同学加入), 科研成果突出者将推荐到国内外著名大学的合作课题组继续深造!

注:本课题组研究生均进行实验工作,现有一批拔尖的本科同学辅助做理论计算;


本课题组常年招募“数学基础好、编程能力强”的本科生

(不限专业、不限年级)

联系邮箱: onexf@xtu.edu.cn