湘潭大学材料科学与工程学院导师教师师资介绍简介-王秀锋

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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
办公室:
个人主页:

个人简介

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”相关的柔性薄膜的表界面力学、材料表面特殊浸润性调控等研究。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、Lab on a Chip、Adv.Mater.系列、Langmuir等期刊上发表论文数十篇。与美国西北大学黄永刚院士、科罗拉多矿业大学M. Eberhart教授等著名****课题组长期保持科研合作与交流。

研究方向

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)

获奖情况

2019年湘潭大学首届教学荣誉系统“青年教学标兵”称号（全校仅5人）；
2015年湘潭大学课堂教学比赛一等奖（理科组第一名）；
2015年湖南省高校教师课程教学比赛二等奖；
第15届全国物理力学大会优秀青年论文奖；

科研项目

在研项目经费来源于如下机构：

论文专著

出版教材/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 X.F. Wang(*), Y, Cheng, Y.Z. Yang, et al.,Toward a Generic Model for Self-collapse of Arbitrary-shape Chamber.
n Y. Zhang, Y.Cheng, J. Huang, Y. Liu, J. Peng, S. Chen, K. Song, X. Ouyang, H. Cheng(*),X.F. Wang(*),Skin-interfaced microfluidic devices with one-opening chambers and hydrophobic valves for sweat collection and analysis, Lab on a Chip(to be published,a top journal in Microfluidics), 2020.
n M. Chen,Y. Liu, B. Zhong, H. Wang, Y. Liu,X. Liang, W. Cheng, S.D. Cheng,M. Li, W.J. Xia(*),X.F. Wang(*),Surperhydrophobic PDMS surface with controllable adhesion and its anti-roof-collapse application in microfluidics,Advanced Materials Interfaces, 2019, 6:**.

nY. 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, 2019, 4:**.
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, 16:1099-1108.
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):**-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 Zr₆₅Al_7.5Ni₁₀Cu_17.5, 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.

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。
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），本课组每年至少推荐2-3名同学到国内外著名大学（美国UC Boulder、Penn State、中科院、南大、西交、电子科大等）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;
联系邮箱： onexf@xtu.edu.cn