職稱：教授（碩士生導師）

最高學曆：博士研究生

畢業院校：武漢大學

工作單位：77779193永利官网

職務：77779193永利官网院長

電話：027-59367260/15002780696

郵箱： shxwang@wtu.edu.cn

汪勝祥，湖北浠水人，1980年3月生，77779193永利官网三級教授，湖北省“楚天學者”計劃海外高層次引進人才，碩士生導師，現任77779193永利官网院長。曾擔任77779193永利官网電子與電氣工程學院副院長、“教育部首批全國黨建工作樣闆支部（77779193永利官网電氣教師黨支部）”支部書記，獲77779193永利官网“最美教師”榮譽稱号。先後獲武漢水利電力大學工學學士（2001），三峽大學工學碩士（2004），武漢大學工學博士（2007）。2007年6月至2007年9月，在香港理工大學應用物理系擔任助理研究員。2007年10月至2011年3月，在法國國家科學院（CNRS） “電子、微電子及納米技術（Institut d’Electronique de Microélectronique et de Nanotechnologie, IEMN）”研究所進行博士後研究工作。2016年2月至2017年1月，美國佐治亞理工學院電氣與計算機工程學院任訪問學者。主持國家自然科學基金1項，參與國家自然科學基金重大儀器專項1項，主持湖北省自然科學基金1項，其他企業橫向合作項目多項。已在Nature Communications、Advanced Materials、ACS Applied materials & Interfaces、Scientific Reports、Optics Express、 Applied Physics Letters、APL Materials、Journal of Applied Physics、等刊物上發表論文70餘篇，文章被引用的H因子為22 ,論文他引1300餘次（Google Scholar Citation）。

I. 研究領域

1. 功能材料及器件；

2. 超常規介質材料；

3. 超聲／微流控生物檢測技術；

4. 柔性電子器件及應用。

II. 大學開始受教育經曆

· 1997年-2001年，武漢水利電力大學，機械工程系，本科/工學學士

· 2001年-2004年，三峽大學，機械與材料工程系，研究生/工學碩士

· 2004年-2007年，武漢大學，物理科學與技術學院，研究生/工學博士

· 2018年7月，江西幹部學院，教育部“高校教師黨支部書記‘雙帶頭人’培訓班”

· 2019年6月，湖北紅安幹部學院，77779193永利官网“教師黨支部書記培訓班”

· 2019年6月，西安交通大學-延安幹部學院，武漢市委組織部“武漢市知識分子國情研修示範班”

· 2019年7月，浙江大學，77779193永利官网中層幹部培訓班

· 2019年9月-11月，湖北省委黨校，年輕幹部培訓班

III. 研究工作經曆

· 2007年6月-2007年9月，香港理工大學，應用物理系，助理研究員

· 2007年9月-2011年3月，法國國家科研中心（CNRS），電子、微電子及納米技術研究所（IEMN，CNRS 8520），博士後

· 2016年2月-2017年1月，美國佐治亞理工學院，電氣與計算機工程學院，訪問學者

· 2011年7月-2017年9月，77779193永利官网電子與電氣工程學院，副教授

· 2017年10月-2022年2月，77779193永利官网電子與電氣工程學院，教授

· 2018年5月-2022年2月，77779193永利官网電子與電氣工程學院，副院長

· 2022年3月-至今，77779193永利官网，教授

· 2022年3月-2022年4月，77779193永利官网，副院長

· 2022年4月-至今，77779193永利官网，院長

IV. 黨内任職經曆

· 2012年3月-2015年12月，77779193永利官网電子與電氣工程學院電子教師黨支部副書

· 2018年3月-2022年3月，77779193永利官网電子與電氣工程學院電氣系教師黨支部書記

V. 獲得的主要獎勵

· 2020年榮獲“長江防汛抗洪先進個人”；

· 2019年電氣系教工黨支部榮獲77779193永利官网“先進黨支部”、個人榮獲“優秀黨支部書記”；

· 2018年電氣系教工黨支部獲77779193永利官网“先進黨支部”；

· 2018年所在電氣系教工黨支部入選教育部第一批全國黨建工作“樣闆支部”；

· 2017年獲77779193永利官网教學成果特等獎；

· 2017年第八屆湖北省高等學校教學成果獎二等獎；

· 2015年“紡織之光”2015年中國紡織工業聯合會紡織高等教育教學成果二等獎；

· 2011年獲批湖北省“楚天學者”計劃海外高層次人才。

VI. 近五年主持或參加項目

1. 柔性電磁超常材料的制備及其特性研究。國家自然科學基金基金項目，2014.1-2016.12，25萬，主持；

2. 基于微流控芯片的胎兒有核紅細胞分析儀。國家自然科學基金重大儀器專項項目，660萬，2016.1-2020.12，項目組主要成員；

3. 柔性電磁超常材料的制備及其特性研究。湖北省自然科學基金基金項目，2014.1-2015.12，6萬，主持；

4. 智能服飾與服裝關鍵電子技術創新團隊。77779193永利官网校創新基金，40萬，主持；

5. 瓦斯繼電器校驗儀研究開發，企業委托，26萬，主持；

6. 可穿戴吸波面料開發，企業委托，20萬，主持；

7. 超聲波檢測技術，企業委托，240萬，主持。

VII. 發表的主要論文

（*為通訊作者）

1. G Wei, Z Liu, H Wu, L Wang, S Wang*, J Xiao*，“Boundary configured chiral edge states in valley topological photonic crystal”，Optics Letters ,2022, 47 (12), 3007-3010

2. P Wang, R Hu, X Huang, T Wang, S Hu, M Hu, H Xu, X Li, K Liu, S Wang*, L Kang, D.H. Werner,“Terahertz chiral metamaterials enabled by textile manufacturing”, Advanced Materials, 2022, 2110590

3. Cai Zhou, D Zhu, F Liu, C Feng, M Zhang, L Ding, M Xu, S Wang*，“Electric-field-induced in-plane effective 90° magnetization rotation in Co2FeAl/PMN-PT structure”，Chinese Physics B，2021，30 (5), 057504

4. Shulin Hu, Peng Wang, Cai Zhou, Min Hu, Yuli Xiong, Huanhuan Xu, Xiaoyu Li, Mingyao Xu, Shengxiang Wang*, “Control of THz Surface Plasmons by Geometric Phases”, Frontiers in Physics, 2021, doi: 10.3389/fphy.2020.612163

5. Cai Zhou, Mingfang Zhang, Fufu Liu, Ying Jin, Changjun Jiang, Min Hu, Cunfang Feng, Fenglong Wang, Mingyao Xu, Shengxiang Wang*, “Magnon-tuning non-volatile magnetic dynamics in a CoZr/PMN-PT structure”, Scientific Reports 2020, 10 (1), 1-7

6. Yuli Xiong,* Menghan You, Fangyan Liu, Menghao Wu, Chengfeng Cai, Lei Ding, Cai Zhou, Min Hu,Wentao Deng, and Shengxiang Wang*，“Pt-Decorated, NanocarbonIntercalated, and N‑Doped Graphenewith Enhanced Activity and Stability for Oxygen Reduction Reaction”，ACS Applied Energy Materials 2020 (3), 2490-2495

7. Min Hu, Xuelian Wu, Wen Liang Tan, Boer Tan, Andrew D. Scully, Lei Ding, Cai Zhou, Yuli Xiong,Fuzhi Huang, Alexandr N. Simonov, Udo Bach, Yi-Bing Cheng, Shengxiang Wang*, and Jianfeng Lu*，“Solvent Engineering of a Dopant-Free Spiro-OMeTAD Hole-Transport Layer for Centimeter-Scale Perovskite Solar Cells withHigh Efficiency and Thermal Stability”，ACS Applied materials & Interfaces 2020 (12),8260-8270

8. Shengxiang Wang*, Chengfeng Cai, Menghan You, Fangyan Liu, Menghao Wu, Songzhan Li, Huaguang Bao, Lei Kang, and Douglas H. Werner, “Vanadium dioxide based broadband THz metamaterial absorbers with high tunability: simulation study”, Optics Express，2019， 27 (14), 19436-19447

9. Cai Zhou, Menghan You, Lei Ding, Cunfang Feng, Mingyao Xu, Shengxiang Wang*,“Enhancement of resonance frequency of stripe domain soft magnetic film by oblique sputtering”, Applied Physics A， 2019，125 (3), 174

10. Cai Zhou, Mingfang Zhang, Cunfang Feng, Mingyao Xu, Shengxiang Wang, Changjun Jiang, “Magnon-driven interfacial magnetoelectric coupling in Co/PMN-PT multiferroic heterostructures”, Physical Chemistry Chemical Physic，2019, 21 (38), 21438-21444

11. YanqinYang，Songzhan Li，FengLiu，JianWen，NangangZhang, Shengxiang Wang, K Liu, Enhanced performance of multi-dimensional CoS nanoflake/NiO nanosheet architecture with synergetic effect for asymmetric supercapacitor, Nanotechnology29 (45), 2018, 455401

12. Feng Liu, Shuibing Wang, Zhigang Lu, Yumei Sun, Chaogang Yang, Qiongwei Zhou, Shaoli Hong, Shengxiang Wang, Bin Xiong, Kan Liu & Nangang Zhang, “A simple pyramid-shaped microchamber towards highly efficient isolation of circulating tumor cells from breast cancer patients”, Biomedical microdevices， 2018, 20 (4), 83

13. Luman Qin, Wei Zhou, Shoukun Zhang, Boran Cheng, Shubin Wang, Songzhan Li, Yanqin Yang, Shengxiang Wang, Kan Liu, Nangang Zhang, “Highly Efficient Isolation of Circulating Tumor Cells Using a Simple Wedge-Shaped Microfluidic Device”, IEEE Transactions on Biomedical Engineering, 2018, 66 (6), 1536-1541

14. Shengxiang Wang, Guochao Wei, Xiaochuan Wang, Zhengpeng Qin, Yuan Li, Wen Lei, Zhihao Jiang, Lei Kang, Douglas H. Werner, “Asymmetric transmissioin based on magnetic resonance coupling in 3D-printed metamaterials”, Applied Physics Letters, 2018(113), 081904

15. Shengxiang Wang, Lei Kang, Douglas H. Werner, “Active Terahertz Chiral Metamaterials Based on Phase Transition of Vanadium Dioxide (VO₂)”, Scientific Reports, 2018(8), 189

16. Shengxiang Wang, Lei Kang, Douglas H. Werner, “Hybrid Resonators and Highly Tunable Terahertz Metamaterials Enabled by Vanadium Dioxide (VO₂)”, Scientific Reports, 2017(7), 4326

17. Sean Rodrigues, Shoufeng Lan, Shengxiang Wang, et al, “Intensity-dependent modulation of optically active signals in a chiral metamateria”, Nature Communications, 2017(8), 14602

18. Yanqin Yang, Songzhan Li, Shengxiang Wang*, “Bidirectional electroluminescence from p-SnO₂/i-MgZnO/n-ZnO heterojunction light-emitting diodes”, Journal of Luminescence, 2017(186),223-228.

19. Kan Liu, Jianzhen Xiang, Zhao Ai, Shoukun Zhang, Yi Fang, Ting Chen, Qiongwei Zhou, Songzhan Li, Shengxiang Wang, Nangang Zhang, “PMMA microfluidic chip fabrication using laser ablation and low temperature bonding with OCA film and LOCA”, Microsystem Technologies, 2017(23),1937-1942

20. Songzhan Li, Shengxiang Wang, et al., “Self-powered blue-sensitive photodetector based on PEDOT:PSS/ SnO₂ microwires organic/inorganic p–n heterojunction”, Applied Physics A, 119:1561-1566, (2015)

21. Chang Liu, Shengxiang Wang, et al., “Self-amplified piezoelectric nanogenerator with enhanced output performance: The synergistic effect of micropatterned polymer film and interweaved silver nanowires”, Applied Physics Letters, 106, 163901 (2015)

22. Kan liu, Nangang Zhang, Shengxiang Wang, et al., “An automatic microfluidic sample transfer and introduction system”, Microfluid & Nanofluid, 16:101–108(2014)

23. Rybin Oleg, Shengxiang Wang, “Substrate application of electrically enhanced microwave metamaterials”, Mathematical Methods in Electromagnetic Theory, 202-204, (2014)

24. Fuli Zhang, Qian Zhao,Ji Zhou,and Shengxiang Wang, “Polarization and incidence insensitive dielectric electromagnetically induced transparency metamaterial”, Optics Express, 21(17), 19675-19680 (2013)

25. Shengxiang Wang, Fréderic Garet, Éric. Lheurette, Magali Astic, Jean-Louis Coutaz and Didier Lippens，“Giant rotary power of a fishnet-like metamaterial”，APL Materials, 1, 032116, (2013)

26. Jiaming Gao, Julien Carlier, Shengxiang Wang*, Pierre Campistron, Dorothee Callens,Shishang Guo, Xingzhong Zhao, Bertrand Nongaillard, “Lab-on-a-chip for high frequency acoustic characterization”, Sensors and Actuators B: Chemical, 117:753-760, (2013)

27. J Wang, M Li, X Liu, W Liu, Z Hu, S Wang*,“Improvements of the dielectric constant and ferromagnetic property of Co doped BiFeO 3 nanotubes”, Journal of Porous Materials, 20(4), 727-731 (2013)

28. Shengxiang Wang, Pierre Campistron, Julien Carlier, Dorothée Callens-Debavelaere, Bertrand Nongaillard, Assane NDieguene, et al, “Controlling the transmission of ultrahigh frequency bulk acoustic waves in silicon by 45° mirrors”, Ultrasonics, 51:532 (2011).

29. Shengxiang Wang, Pierre Campistron, Julien Carlier, et al, “A 45° silicon mirror for acoustic propagation parallel to the plane of the substrate”, Journal of Physics : Conf. Ser., 269:012009 (2011).

30. Tadeusz Gryba, Julien Carlier, Shengxiang Wang, XingZhong Zhao, Shishang Guo, Jean-Etienne Lefebvre, “One port contour-mode ZnO piezoelectric MEMS resonator”, Microelectronic Engineering, 88:3003-3010 (2011)

31. Shengxiang Wang, Frédéric Garet, Karine Blary, Eric Lheurette, Jean Louis Coutaz and Didier Lippens, “Experimental verification of negative refraction for a wedge-type negative index metamaterial operating at terahertz”, Applied Physics Letters, 97(18):181902 (2010).

32. Shengxiang Wang, Frédéric Garet, Karine Blary, Charles Croënne, Eric Lheurette, Jean Louis Coutaz and Didier Lippens, “Composite left/right-handed stacked hole arrays at sub-millimeter wavelength”, Journal of Applied Physics, 107(7), 074510(2010), selected Research Highlight.

33. Shengxiang Wang, Pierre Campistron, Julien Carlier, Dorothée Callens-Debavelaere, Bertrand Nongaillard, Assane NDieguene, Georges Nassar, Caroline Soyer, “SU-8-based nanocomposites for acoustical matching layer”, IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, 56, (7) 1483-1489(2009).

34. Mei-Feng Hu, Yue Zhuo, Shengxiang Wang, Yu Tian, “Study on dielectric and tunable properties of Cr-doped Ba_0.6Sr_0.4TiO₃ thin films by rf sputtering”, Journal of Materials Science, 43: 3162 (2008).

35. Xiaohua Sun, Huiming Huang, Shengxiang Wang, Meiya Li and Xing-Zhong Zhao, “Dielectric and tunable properties of Pb_0.25Ba_xSr_0.75−xTiO₃ thin films fabricated by a modified sol–gel method”, Thin Solid Films, 516(6):1308 (2008).

36. Yong Zheng, Shengxiang Wang, Yonglin Yan, Nengwei Zhao and Xin Chen, “Microstructure evolution and phase transformation during spark plasma sintering of Ti(C,N)-based cermets”, International Journal of Refractory Metals and Hard Materials, 26(4):306 (2008).

37. Shengxiang Wang, Jian-Hua Hao, Zhen-Ping Wu, Dan-Yang Wang, Yue Zhuo, and Xing-Zhong Zhao, “Dielectric properties of Ba_0.6Sr_0.4TiO₃ thin films using Pb0.3Sr0.7TiO3 buffer layers” , Applied Physics Letters, 91(25):252908 (2007).

38. Shengxiang Wang, Ming-Sen Guo, Tao Liu, Shi-shang Guo, Mei-Ya Li and Xing-Zhong Zhao, “Effect of K doping on the dielectric and tunable properties of Ba_0.6Sr_0.4TiO₃ thin films by rf magnetron sputtering”, Journal of Crystal Growth, 306( 1):22 (2007).

39. Shengxiang Wang, Ming-Sen Guo, Xiao-Hua Sun, Tao Liu, Mei-Ya Li, and Xing-Zhong Zhao. “Tunable, low loss Bi_1.5Zn_1.0Nb_1.5O₇/Ba_0.6Sr_0.4TiO₃/ Bi_1.5Zn_1.0Nb_1.5O₇ sandwich films”, Applied Physics Letters, 89(21):212907 (2006).

40. Mingsen Guo, Tianshu Wu, Tao Liu, and Sheng-Xiang Wang, Xing-Zhong Zhao, “Characterization of CaCu3Ti4O12 varistor-capacitor ceramics by impedance spectroscopy”, Journal of Applied Physics,99:1241113 (2006).

41. Yong Zheng, Xingzhong Zhao, Wen Lei, Shengxiang Wang, “Effects of Bi2O3 addition on the microstructures and microwave dielectric characteristics of Ba_6-3x(Sm_0.2Nd_0.8)_(8+2x) Ti₁₈O₅₄(x=2/3) ceramics”,Materials Letters, 60(4):459 (2006).

42. Yong Zheng, Shengxiang Wang, Min You, Hongyan Tan, Weihao Xiong. “Fabrication of nanocomposite Ti(C,N)-based cermet by spark plasma sintering”, Materials Chemistry and Physics, 92:64 (2005).

43. Guo Shishang, Sun Xiaohua, Wang Shengxiang, et al, “Thermal and structural properties of high-energy electron irradiated poly(vinylidene fluoride-trifluoroethylene) copolymer blends”, Materials Chemistry and Physics, 91(2-3):348 (2005).

44. Yong Zheng, Wenjun Liu, Shengxiang Wang, Weihao Xiong, “Effect of carbon content on the microstructure and mechanical properties of Ti(C, N)-based cermets”,Ceramics International, 30(8): 2111 (2004).

45. Yong Zheng, Min You, Wenjun Liu, Weihao Xiong, Shengxiang Wang, “Effect of Cr₃C₂ on the Valence Electron Structure and Plasticity of the Rim Phase in Ti(C,N)-Based Cermet”, Journal of American Ceramics Association, 82:877 (2003).

46. Yong Zheng, Min You, Weihao Xiong, Wenjun Liu and Shengxiang Wang, “Valence-electron structure and properties of main phases in Ti(C, N)-based cermets”, Materials Chemistry and Physics, 82(3):877 (2003).