教师姓名:王雪
邮箱地址:xuewang@cqu.edu.cn
工作电话:18723277157

理学博士,副教授,博士研究生导师


研究方向及成果简介:

本人长期从事先进功能材料的制备、表征及其应用于摩擦纳米发电机、自驱动传感系统、超级电容器,电化学生物传感器等方面的研究。到目前为止,已经在国际著名SCI期刊Advanced Energy MaterialsNature CommunicationsNano EnergyNano ResearchJournal of Power Sources等杂志上发表论文60余篇,其中ESI高被引论文6。研究工作得到国际/国内同行的广泛关注和高度认可,所发表论文迄今已被引用2600余次,个人H-index 26。作为项目负责人主持国家自然科学基金、重庆市基础科学与前沿技术研究专项、中央高校前沿交叉研究专项,中央高校平台与成果培育专项等项目。成果荣获2019年度重庆市科学技术奖自然科学一等奖(第四完成人),2018年度重庆大学科学技术奖自然科学一等奖(第一完成人),2014年度重庆市优秀博士毕业论文等奖项。近年来,广泛开展国内外合作研究,与中国科学院北京纳米能源与系统研究所、厦门大学、华南理工大学、华中科技大学、山东大学、暨南大学、杜克大学、威斯康辛大学麦迪逊分校等同行专家和学者建立了紧密的合作关系,并担任了Advanced Functional MaterialsNano EnergyNano-Micro LettersSCI期刊审稿人,国家自然科学基金委通讯评审专家,重庆市自然科学基金通讯评审专家



工作经历:

2012/07-2013/10 华南理工大学,材料科学与工程学院,讲师

2013/10-2016/04 华南理工大学,材料科学与工程学院,副研究员

2016/04-至今重庆大学,物理学院,副教授

教育经历:

2003/09-2007/06 重庆大学,数理学院,电子信息科学与技术专业,学士(保送研究生)

2007/09-2012/06 重庆大学,物理学院,凝聚态物理专业,博士(硕博连读),导师:胡陈果 教授

2010/08-2012/01 美国佐治亚理工学院,材料科学与工程系,博士研究生联合培养,导师:王中林 教授(中国科学院外籍院士)

主持的科研项目:

1.       国家自然科学基金青年科学基金

2.       重庆市基础科学与前沿技术研究专项

3.       重庆大学人才启动基金

4.       重庆大学中央高校前沿交叉项目

5.       重庆大学中央高校基本科研业务成果与平台培育专项

6.       重庆大学中央高校基本科研业务费面上项目

7.       华南理工大学中央高校基本科研业务费面上项目

8.       华南理工大学国家人体组织功能重建工程技术研究中心及广东省生物医学工程重点实验室开放基金项目

荣誉:

1.       纳米材料生长动力学研究及其光电作用下的电荷输运机制,2019年度重庆市科学技术奖自然科学一等奖(第四完成人)

2.       基于纳米结构的高性能电化学传感器构建及性质研究,2018年度重庆大学科学技术奖自然科学一等奖(第一完成人)

3.       2014年度重庆市优秀博士毕业论文


部分代表性论文:

  1. Wu, Y; Zeng, QX; Tang, Q; Liu, WL; Liu, GL; Zhang, Y; Wu, J; HuCGWang, X*. Ateeterboard-like hybrid nanogenerator for efficient harvesting of low-frequencyocean wave energy. Nano Energy, 67 (2020): 104205. (一区, IF=15.548

  2. Zeng,QX; Wu, Y; Tang, Q; Liu, WL; Wu, J; Zhang,Y; Yin, GY; Yang, HK; Yuan, SL ; Tan,DJ; HuCG; Wang, X*. A high-efficientbreeze energy harvester utilizing a full-packaged triboelectric nanogeneratorbased on flow-induced vibration. Nano Energy, 70 (2020): 104524. (一区, IF=15.548

  3. G.L.Liu, J. Chen, Q. Tang, L. Feng, H. M. Yang, J. Li, Y. Xi, X. Wang*, and C. G. Hu*. Wireless Electric EnergyTransmission through Various Isolated Solid Media Based on TriboelectricNanogenerator. Advanced Energy Materials, 8 (2018): 1703086. (一区, IF=24.884

  4. J.Chen, X. j. Pu, H. Y. Guo*, Q. Tang, L. Feng, X. Wang*, and C. G. Hu*. A Self-powered 2D BarcodeRecognition System Based on Sliding Mode Triboelectric Nanogenerator forPersonal Identification. Nano Energy, 2018 (43): 253-258. (一区, IF=15.548

  5. X.J. Pu, H. Y. Guo, J. Chen, X. Wang,Y. Xi, C. G. Hu*, and Z. L. Wang*. Eye motion triggered self-poweredmechnosensational communication system using triboelectric nanogenerator. ScienceAdvances, 3 (2017): e1700694. (一区,IF=12.804, Cited 177 times, ESI Highly Cited Paper)

  6. Y.R. Li, X. Wang*, Q. Yang, M.S. Javed, Q. P. Liu, W. N. Xu, C. G. Hu, and D. P. Wei. Ultra-fine CuONanoparticles Embedded in Three-dimensional Graphene Network Nano-structure forHigh-performance Flexible Supercapacitors. Electrochimica Acta, 2017, 234:63-70.(一区, IF=5.383

  7. X.N. Xia, J. Chen, H. Y. Guo, G. L. Liu, D. P. Wei, Y. Xi, X. Wang*, and C. G. Hu*. Embedding Variable Micro-capacitorsin Polydimethylsiloxane for Enhancing Output Power of TriboelectricNanogenerator. Nano Research, 2017 (10) 1: 320-330.(一区, IF=8.515

  8. W.N. Xu, G. L. Liu, C. S. Wang, C. G. Hu*, and X. Wang*. ANovel Beta-MnO2 Micro/nanorod Arrays Directly Grown on FlexibleCarbon Fiber Fabric for High-performance Enzymeless Glucose Sensing.Electrochimica Acta, 2017, 225: 121-128. (一区, IF=5.383

  9. W.N. Xu, S. G. Dai, G. L. Liu, Y. Xi, C. G. Hu*, and X. Wang*. CuO NanoflowersGrowing on Carbon Fiber Fabric for Flexible High-Performance Supercapacitors. ElectrochimicaActa, 2016, 203: 1-8. (一区, IF=5.383

  10. W.N. Xu, S. G. Dai, X. Wang*,X. M. He, M. J. Wang, Y. Xi and C. G. Hu*. Nanorod-Aggregated Flower-like CuOGrown on a Carbon Fiber Fabric for a Super High Sensitive Non-Enzymatic GlucoseSensor. Journal of Materials Chemistry B, 2015, 3 (28): 5777-5785. (一区, IF=4.776

  11. X. Wang,C. G. Hu*, Y. F. Xiong and C. L. Zhang. Synthesis of Functional CarbonNanospheres by a Composite-Molten-Salt Method and Amperornetric Sensing ofHydrogen Peroxide. Journal of Nanoscience and Nanotechnology, 2013, 13 (2):933-936.

  12. X. Wang,Y. Ding, D. J. Yuan, J. I. Hong, Y. Liu, C. P. Wong, C. G. Hu and Z. L. Wang*.Reshaping the Tips of ZnO Nanowires by Pulsed Laser Irradiation. NanoResearch, 2012, 5 (6): 412-420. (一区, IF=8.515

  13. L.Y. YuanX. H. Lu, X. Xiao, T.Zhai, J. J. Dai, F. C. Zhang, B. Hu, X.Wang, L. Gong, J. Chen, C. G. Hu, Y. X. Tong, J. Zhou* and Z. L. Wang*.Flexible Solid-State Supercapacitors Based on Carbon Nanoparticles/MnO2Nanorods Hybrid Structure. Acs Nano, 2012, 6: 656-661. (一区,IF=13.903, Cited 770 times, ESI Highly Cited Paper)

  14. X. Wang,C. G. Hu*, Y. F. Xiong, H. Liu, G. J. Du and X. S. He.Carbon-Nanosphere-Supported Pt Nanoparticles for Methanol and EthanolElectro-Oxidation in Alkaline Media. Journal of Power Sources, 2011, 196:1904-1908. (一区, IF=7.467

  15. X. Wang,Y. Ding*, Z. L. Wang and C. G. Hu. Temperature Driven in-Situ PhaseTransformation of PbWO4 Nanobelts. Journal of Applied Physics,2011, 109 (12): 124309.

  16. X. Wang,C. G. Hu*, H. Liu, G. J. Du, X. S. He and Y. Xi. Synthesis of CuONanostructures and Their Application for Nonenzymatic Glucose Sensing. Sensorsand Actuators B-Chemical, 2010, 144 (1): 220-225. (一区,IF=6.393, Cited 314times, ESI Highly Cited Paper)

  17. M. S. Javed, S. G. Dai, M. J. Wang, D. L. Guo, L. Chen, X. Wang,C. G. Hu* and Y. Xi*. High Performance Solid State Flexible SupercapacitorBased on Molybdenum Sulfide Hierarchical Nanospheres. Journal of Power Sources,285: 63, 2015. (一区, IF=7.467

  18. K. Y. Zhang, H. Chen, X. Wang, D. L. Guo, C. G. Hu*, S. X.Wang, J. L. Sun and Q. Leng. Synthesis and Structure Determination of PotassiumCopper Selenide Nanowires and Solid State Supercapacitor Application.Journal of Power Sources, 268: 522, 2014. (一区, IF=7.467

  19. C. L. Zhang, D. L. Guo, C. G. Hu*, Y. X. Chen, H. Liu, H. L. Zhang and X.Wang. Large-Scale Synthesis and Photoluminescence of Cobalt TungstateNanowires. Physical Review B, 87: 3, 2013.

  20. G. Zhu, Y. S. Zhou, S. H. Wang, R. S. Yang, Y. Ding, X. Wang,Y. Bando and Z. L. Wang*. Synthesis of Vertically Aligned Ultra-Long ZnO Nanowireson Heterogeneous Substrates with Catalyst at the Root.Nanotechnology,23: 5, 2012.

  21. W. H. Han, Y. S. Zhou, Y. Zhang, C. Y. Chen, L. Lin, X. Wang,S. H. Wang and Z. L. Wang*. Strain-Gated Piezotronic Transistors Based on VerticalZinc Oxide Nanowires. ACS Nano, 6: 3760, 2012. (一区)

  22. W. X. Guo, C. Xu, X. Wang, S. H. Wang, C. F. Pan, C. J. Linand Z. L. Wang*. Rectangular Bunched Rutile TiO2 Nanorod ArraysGrown on Carbon Fiber for Dye-Sensitized Solar Cells. Journal of the American ChemicalSociety, 134: 4437, 2012. (一区,IF=14.695, Cited 296 times,ESI HighlyCited Paper)

  23. Y. Yang, W. X. Guo, Y. Zhang, Y. Ding, X. Wangand Z. L.Wang*. Piezotronic Effect on the Output Voltage of P3HT/ ZnO Micro/Nanowire HeterojunctionSolar Cells. Nano Letters, 11: 4812, 2011. (一区)

  24. L. Lin, C. H. Lai, Y. F. Hu, Y. Zhang, X. Wang, C. Xu, R. L.Snyder, L. J. Chen and Z. L. Wang*. High Output Nanogenerator Based on Assemblyof Gan Nanowires. Nanotechnology, 22: 47, 2011.

  25. C. L. Cao, C. G. Hu*, X. Wang, S. X. Wang, Y. S. Tian and H.L. Zhang. UV Sensor Based on TiO2 Nanorod Arrays on FTO Thin Film. Sensorsand Actuators B-Chemical, 156: 114, 2011. (一区)


教师寄语:本课题组有着和谐的研究氛围,长期同国内国际同行顶尖课题组保持良好的合作和交流。热忱欢迎对新能源材料及器件、自驱动传感器,电化学生物传感器等研究方向感兴趣的同学加入,或交流探讨。