清华大学微电子所导师教师师资介绍简介-王晓红

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王晓红，教授，1998年毕业于清华大学精密仪器与机械学系，获工学博士学位，分别于1991和1985年在东南大学获工学硕士和学士学位。2005 年11月-2006年10月，在美国Stanford大学机械系做访问，从事固体氧化物燃料电池（SOFC）阳极催化电极热稳定性的研究。2006年11月-2007年3月在UCLA电子工程系任副研究员，从事纳米光探测器研究。
通信地址：北京清华大学微电子学研究所微纳系统研究室
邮编 100084
Tel. 　Fax: 　　　　　　　　　　
Email: wxh-ime@mail.tsinghua.edu.cn
教学课程：本科生课程：MEMS与微系统（**）
本科生课程：微纳米能源技术与器件（102009）
研究生课程：微机电系统MEMS设计与制造（**）
目前主要研究方向：微纳器件与系统 / 微能源系统（PowerMEMS）
[1]. 微型直接甲醇燃料电池（uDMFC）
[2]. 三维微型超级电容
[3]. 微型生物细胞发电机
[4]. 微纳米电化学传感器
[5]. 硅基微型锂电池
[6]. 微传感&微能源相关纳米材料
申请国际发明专利2项（1项美国授权），中国发明专利26项（17项授权）。获得国家发明二等奖1项，北京市科技进步二等奖1项，中国专利优秀奖1 项。发表SCI期刊论文和高水平国际会议论文80余篇。先后负责国家自然科学基金重点项目1项、面上项目2项，国际交流重点项目1项、863计划课题2项、973计划课题2项，以及国家实验室交叉基金、两岸清华合作基金、传感器国家实验室基金等多项。
现为IEEE高级会员。2013年受邀担任MEMS领域重要国际刊物IEEE/ASME JMEMS 的编委成员，2015年受邀担任Nature合刊Microsystems & Nanoengineering的编委成员。
担任多个重要国际会议TPC成员，如，Transducers2011-2017的TPC成员及Transducers2011的大会秘书长；PowerMEMS、APCOT、IEEE NEMS等国际会议TPC成员；多次担任本领域顶级会议IEEE MEMS大会的TPC成员，并担任IEEEMEMS2016大会的共同主席（Co-Chair），任IEEEMEMS2017大会的国际指导委员会（Steering Committee）主席，目前为IEEE MEMS大会的国际指导委员会成员。
代表性期刊论文：
[1] Liu X, Xiaohong Wang, et al. Polymeric Nanofibers with Ultrahigh Piezoelectricity via Self-Orientation of Nanocrystals. ACS nano, 2017.11(2),1901-1910
[2] J. Pu, Xiaohong Wang, et al., Highly Stretchable Microsupercapacitor Arrays with Honeycomb Structures for Integrated Wearable Electronic Systems, ACS nano, 2016. 10(10):9306-9315.
[3] Xia Liu, Xiaohong Wang, et al., In vitro cardiomyocytes-driven biogenerator based on aligned piezoelectric nanofibers, Nanoscale, 2016, 8, 7278-7286.
[4] Juan Pu, Xiaohong Wang, et al., High-energy-density, all-solid-state micro supercapacitors with three-dimensional interdigital electrodes of carbon/polymer electrolyte composite, Nanotechnology, 27, 045701 (2016).
[5] X. Liu, Xiaohong Wang, et al., Nanoscale investigations on β-phase orientation, piezoelectric response, and polarization direction of electrospun PVDF nanofibers. RSC Advances, 2016. 6(110): 109061-109066.
[6] X. Liu, Xiaohong Wang, et al., Ultra-long MWCNTs highly oriented in electrospun PVDF/MWCNT composite nanofibers with enhanced β phase. RSC Advances, 2016. 6(108): 106690-106696.
[7] X. Liu, Xiaohong Wang, et al., Nanoscale domain imaging and local piezoelectric coefficient d 33 studies of single piezoelectric polymeric nanofibers. Materials Letters, 189 (2017): 66-69
[8] X. Liu, Xiaohong Wang, et al., High-sensitivity piezoresponse force microscopy studies of single polyvinylidene fluoride nanofibers. Materials Letters, 2017, 191:189-192
[9] Xia Liu, Xiaohong Wang, et al.,A Flexible, All-Solid-State Micro Supercapacitor and Its Application in Electrostatic Energy Management System, Journal of Microelectromechanical Systems, 2016, 10.1109/JMEMS.2016.**.
[10] Chen Zhou, Xiaohong Wang, et al.,High performance flexible ultraviolet photodetectors based on TiO2/Graphene hybrid for irradiation monitoring applications, J. Micromech. Microeng, 2016, pp.75003-75011(9).
[11] Siwei Li, Xiaohong Wang,et al., Micro Li-ion capacitor with activated carbon/graphite configuration for energy storage, Journal of Power Sources, 282 (2015), 394-400.
[12] Zonglin Wu, Xiaohong Wang,et al., A passive vapor-feed direct methanol fuel cell based on a composite pervaporation membrane, Journal of Microelectromechanical Systems,24(1), 207-215.
[13] Zonglin Wu, Xiaohong Wang, et al.,A long-term stable power supply uDMFC stack for wireless sensor node applications, J. Micromech. Microeng. 24(10), 104004.
[14] Fei Teng, Xiaohong Wang, et al.,A micro glucose sensor based on direct prototyping mesoporous carbon electrode, Microsyst Technol,21(6), 1337-1343.
[15] LU Y,WANG X, WU X, et al. A non-resonant, gravity-induced micro triboelectric harvester to collect kinetic energy in low-frequency jigging movements of human limbs, J. Micromech. Microeng. 24 (2014) 065010.
[16] Xiaohong Wang, Yan’an Zhou, Litian Liu, Capillary-based water removal cathode for an air-breathingmicro direct methanol fuel cell, Microsyst Technol, (2014) 20:1093–1101.
[17] Xia Liu,Xiaohong Wang, Xiaoming Wu, Zhixiong Zhang, Yuanxi Zhang, The synergistic effect of periodic immunomagneticsand microfluidics on universally capturing circulatingtumor cells, Microsyst Technol, (2014) 20:1337–1344.
[18] Mei Wang, Xiaohong Wang, Jiannan Li, Litian Liu, In-Situ Synthesis of 3D Platinum Nanoflowers on Porous Silicon for Monolithic Integrated Micro Direct Methanol Fuel Cells, J. Mater. Chem.A, 2013,1, P8127-8133.
[19] C.W. Shen, X. H. Wang, S. W. Li, J. G. Wang, W.F. Zhang, F.Y. Kang, A high-energy-density micro supercapacitor of asymmetric MnO₂-carbon configuration by using micro-fabrication technologies, Journal of Power Sources,234 (2013) 302-309.
[20] Shen C, Wang X, Zhang W, Kang F, Direct prototyping of patterned nanoporous carbon: a route from materials to on-chip devices, Scientific Reports, 3(2013), 2294.
[21] Ling Bu, Xiaoming Wu, Xiaohong Wang, Litian Liu, Liquid encapsulated electrostatic energy harvester for low-frequency vibrations, Journal of Intelligent Material Systems and Structures,2013, 24(1), pp. 61-69.
[22] Siwei Li, Xiaohong Wang, Hexin Xing and Caiwei Shen, Micro supercapacitors based on a 3Dstructure with symmetric graphene oractivated carbon electrodes, J. Micromech. Microeng. 23 (2013) 114013.
[23] Ling Bu, Xiaoming Wu, Xiaohong Wang, Litian Liu, Silicon based polytetrafluoroethylene electrets: preparation and corona charging characteristics, Journal of Electrostatics, 2013, 71(4), pp. 666-672.
[24] Ling Bu, Xiaoming Wu, Xiaohong Wang, Litian Liu, “Non-resonant electrostatic energy harvester for wideband applications”, Micro & Nano Letters, 8(3), 135-137.
[25] Mei Wang, Xiaohong Wang, Sarmishtha Ghoshal, Deposition of platinum nanoparticles on p-type macroporous silicon wall, Micro & Nano Letters, 8 (8), pp. 465–469.
[26] Yan’an Zhou, Xiaohong Wang, Xun Guo, Xinping Qiu, Litian Liu , A water collecting and recycling structure for silicon-based micro direct methanol fuel cells, International Journal of Hydrogen energy,37 (2012), 967-976.
[27] Xiaohong Wang, Yiming Zhu, Caiwei Shen, Yan’an Zhou, Xiaoming Wu, Litian Liu, A novel assembly methode using multi-layer bonding technique for micro DMFCs and their stack, Sensors and Actuators A: Physical,188 (2012), 246-254.
[28] Xi Liuy, Xiaoming Wu, Tianling Ren, Xiaohong Wang, Thin film thermal conductivity metrology using photoluminescence of quantum dots, Sensors and Actuators A: Physical, 188 (2012), 255-260.
[29] Siwei Li, Xiaohong Wang, Caiwei Shen, Jian’gan Wang, and Feiyu Kang, Nano-structured Manganese Dioxides as Active Materials for Micro Supercapacitors, Micro & Nano Letters. 7( 8), 2012, pp. 744–748.
[30] Hexin Xing, Xiaohong Wang, et al., Fabrication and tests of a 3-D micro supercapacitor using SU-8 photoresist as the separator, Micro & Nano Letters, 7( 12), 2012, pp. 1166–1169.
[31] C.W. Shen, X. H. Wang, W.F. Zhang, F.Y. Kang, A high-performance three-dimensional micro supercapacitor based on self-supporting composite materials, Journal of Power Sources, 196(2011), 10465-10471.
[32] Q. Zhang, X. H. Wang, Y. M. Zhu, Y. A. Zhou, X. P. Qiu, L.T. Liu, Optimized Temperature Control System Integrated into a Micro Direct Methanol Fuel Cell for Extreme Environments, Journal of Power Sources,192(2009), 494-501.
[33] X. H. Wang, Y.A. Zhou, et al., An air-breathing microdirect methanol fuel cell stack employing a single anode shared using silicon microfabrication technologies, J. Micromech. Microeng.,19 (2009) 094012.
[34] Q. Zhang, X. H. Wang, L.Y. Zhong, et al., Design, optimization and microfabrication of a micro direct methanol fuel cell with microblocks in anode structure, Sensors and Actuators A: Physical, 154 (2009), pp. 247-254.
[35] X. H. Wang, H. Huang, T. Holme X. Tian, F. B. Prinz, Thermal stabilities of nanoporous metallic electrodes at elevated temperatures, Journal of Power Sources, 175(2008), 75-81.
[36] L. Zhong, X. Wang, Y. Jiang, et al, A Micro-direct Methanol Fuel Cell Stack with Optimized Design and Microfabrication, Sensors and Actuators A: Physical, 143 (2008), 70–76.
[37] Yingqi Jiang, Xiaohong Wang, et al., Design, Fabrication, and Testing of a Silicon-based Air- breathing Micro Direct Methanol Fuel Cell, J. Micromech. Microeng.,2006, 16: s233-s239.
代表性会议论文：
IEEE MEMS Conference：
[1] Zonglin Wu, Xiaohong Wang, Xuanlin Kuang, Litian Liu, A flexible, foldable, tubular μDMFC for powering wrist bands, IEEE MEMS2016, January 2016, Shanghai, China, pp. 43-46
[2] Chen Zhou, Xiaohong Wang, Xuanlin Kuang and Sixing Xu, High performance flexible ultraviolet photodetectorsbased on TiO2/graphene hybrid, IEEE MEMS2016, January 2016, Shanghai, China, pp. 1038-1041
[3] Xia Liu and Xiaohong Wang, Cardiomyocytes driven piezoelectric nanofibergenerator with anisotropic enhancement, IEEE MEMS2016, January 2016, Shanghai, China, pp. 1189-1192
[4] Juan Pu, Xiaohong Wang, Xuanlin Kuang, Sixing Xu, Siwei Li, and K. Komvopoulos, Stretchable microsupercapacitor arrays with a composite honeycomb structure, IEEE MEMS2016, January 2016, Shanghai, China, pp. 1232-1235
[5] Xiaozhao Li, Xiaohong Wang, Siwei Li, Silicon anode supported by carbon scaffold for high performance lithium ion micro-battery, IEEE MEMS2015, January 2015, Estoril, Portugal, pp. 130-133
[6] Xia Liu, Xiaohong Wang, Song Li, Liwei Lin, Energy harvesting using uniaxially aligned cardiomyocytes, IEEE MEMS2014, January 2014, San Francisco, USA, pp. 159-162.
[7] Siwei Li, Xiaohong Wang, Caiwei Shen, High-energy-density on-chip supercapacitors using manganese dioxide-decorated direct-prototyped porous carbon, IEEE MEMS2014, January 2014, San Francisco, USA, pp. 405-408.
[8] Siwei Li, Xiaohong Wang, High-energy-density on-chip Li-ion capacitor, IEEE MEMS2014, January 2014, San Francisco, USA, pp. 401-404.
[9] Fei Teng, Xiaohong Wang, Caiwei Shen, A micro trace heavy metal sensor based on direct prototyping mesoporous carbon electrode, IEEE MEMS2014, January 2014, San Francisco, USA, pp. 298-301.
[10] Wei Bian, Xiaoming Wu, Xiaohong Wang, Micro pattern of charge in PTFE electret for energy harvesters, IEEE MEMS2014, January 2014, San Francisco, USA, pp. 413-416.
[11] Wei Bian, Xiaoming Wu, Xiaohong Wang, A novel electret rotational speed sensor, IEEE MEMS2014, January 2014, San Francisco, USA, pp. 684-687.
[12] Caiwei Shen, Xiaohong Wang, et al, Direct prototyping of 3D micro supercapacitors based on in-situ fabricated nanoporous carbon electrodes, IEEE MEMS 2013, Jan., 2013, Taipei, Taiwan
[13] Ling Bu, Xiaoming Wu, Xiaohong Wang, Litian Liu, A packaged electrostatic energy harvester with micro-molded bulk electrets, IEEE MEMS 2013, Jan., 2013, Taipei, Taiwan
[14] Yan’an Zhou, Xiaohong Wang, et al, Passive fuel delivery based on hydrophobic porous silicon for micro direct methanol fuel cells, IEEE MEMS 2011, Jan., 2011 .pp:1321-1324. Cancun, Mexico.
[15] C.W. Shen, X.H. Wang, W.F Zhang, F.Y. Kang and C. Du A novel three-dimensional micro supercapacitor using self-support nano composite materials, IEEE MEMS 2011, Jan., 2011. pp: 1285-1288.Cancun, Mexico.
[16] Q. Zhang, X. H. Wang, et al, A micro direct methanol fuel cell integrated with a temperature control system for extreme environments, IEEE MEMS 2009, Jan., 25-29, 2009, Sorrento, Italy.
[17] Q. Zhang, X. H. Wang, L.Y. Zhong, et al, A Silicon-based Micro Direct Methanol Fuel Cell with Microblocks in Anode Structure, IEEE MEMS 2008, Jan., 12-17, 2008, Tucson, USA.
[18] L.Y. Zhong, X. H. Wang, Y.Q. Jiang, X.P. Qiu, Y.A. Zhou, and L.T. Liu, A Silicon-based Micro Direct Methanol Fuel Cell Stack with Compact Structure and PDMS Packaging, IEEE MEMS 2007, Jan., 21-25, 2007, Kobe, Japan.
Transducers Conference:
[19] Xuanlin Kuang, Xia Liu, Sixing Xu, and Xiaohong Wang，Silicon enclosed in RGO/CNT shell-like scaffold as a micro lithium-ion battery anode, Transducers2017. Kaohsiung, Taiwan
[20] Sixing Xu, Xia Liu, Xuanlin Kuang, Wei Liu and Xiaohong Wang,A MXene Based All-Solid-State Microsupercapacitor With 3D Interdigital Electrode, Transducers2017. Kaohsiung, Taiwan
[21] Xiaohong Wang, On-chip energy storage devices based on prototyping of patterned nanoporous carbon, Invited presentation, Transducers2015, June 21-25, Alaska, USA
[22] Juan Pu, Xiaohong Wang, Jinghe Liu, Siwei Li, Kyriakos Komvopoulos, A 3D all-solid-state microsupercapacitor using activated carbon/polymer electrolyte composite as electrodes,Transducers2015, June 21-25, Alaska, USA
[23] Si Chen, Xiaohong Wang, Juan Pu, Siwei Li, A surface-mount flexible micro-supercapacitor on ultra thin parylene-C substrate, Transducers2015, June 21-25, Alaska, USA
[24] Zonglin Wu, Xiaohong Wang, Manqi Xu, Litian Liu, A fully capillary-driven uDMFC twin-stack operating in all orientations, Transducers2015, June 21-25, Alaska, USA
[25] Z.L. Wu, X.H. Wang, X.M. Wu and L.T. Liu, A Passive Vapor-feed direct Methanol Fuel Cell Based on Composite Pervaporation Membrane, Transducers 2013, June 2013, Barcelona, Spain.
[26] W. Bian, X.M. Wu, X.H. Wang, and L.T. Liu, Multiple Axes Vibration Energy Haverster Based on PTFE and Metal Balls, Transducers 2013, June 2013, Barcelona, Spain.
[27] Y.M. Zhu, X.H. Wang, Y.N. Zhou, L.T. Liu, A novel assembly method for micro direct methanol fuel cells using multi-layer bonding technique, Transducers 2011, June 2011 ,Beijing, China.
[28] L. Bu, X.M. Wu, X.H. Wang, L.T. Liu, Liquid-encapsulated energy harvester for low frequency vibrations, Transducers 2011, June 2011, Beijing, China.
[29] Y.A. Zhou, X.H. Wang, Y.M. Zhu, Q. Zhang and L.T. Liu, An Air-breathing Silicon-based Micro Direct Methanol Fuel Cell with a Capillary-based Water Drawn out Structure, Transducers2009, Jun 21-25, 2009, Denver, USA.
[30] Yingqi Jiang, Xiaohong Wang, Kewen Xie, et al., A Micro Direct Methanol Fuel Cell with PDMS Assembly Technology, Transducers2005, Jun 6-9, 2005, Seoul, Korea.
PowerMEMS Conference:
[31] M. Wang, Y. Lu, L. Liu, X. Wang*. A monolithic integrated micro direct methanol fuel cell based on sulfo functionalized porous silicon, PowerMEMS 2016. Dec. 6– 9, 2016, Paris, France
[32] Xiaozhao Li, Xiaohong Wang, et al.,A novel silicon/carbon nanocomposite anode for high performance lithium-ion battery, PowerMEMS 2014, Nov.18-21, 2014, Awaji Island, Japan
[33] Xia Liu, Xiaohong Wang, et al.,Myocardial cell pattern on piezoelectric nanofiber mats for energy harvesting, PowerMEMS 2014, Nov.18-21, 2014, Awaji Island, Japan
[34] Z. L. Wu, X. H. Wang, F. Teng, X. Z. Li, X. M. Wu and L. T. Liu, A long-term stable power supply uDMFC stack for wirelesssensor node applications, PowerMEMS 2013, Dec.3-6, 2013, London, UK
[35] Hexin Xing, Xiaohong Wang, et al., A three-dimensional micro supercapacitor of high specific capacitance using SU-8 photoresist as separator, PowerMEMS 2012, Dec., 2012, Atlanta, USA.
[36] Y.A. Zhou, X. H. Wang, Y.M. Zhu, Q. Zhang and L.T. Liu, An Air-breathing Silicon-based Micro Direct Methanol Fuel Cell Stack, PowerMEMS 2008, Sendai, Japan, 9-12 Nov., 2008.
[37] X. H. Wang, W.J. Wang, et al, Silicon-based Proton Exchange Membrane for Micro Direct Methanol Fuel Cells, PowerMEMS2007, Freiburg, Germany, Nov.28-29, 2007. pp. 27-30.
[38] Lingyan Zhong, Xiaohong Wang, and et al, Design and Fabrication of a Silicon-Based Micro Direct Methanol Fuel Cell Stack, PowerMEMS2006, Nov. 29-Dec.1, 2006, Berkeley, U.S.A.
[39] Xiaohong Wang, Kewen Xie, et al., Modeling, fabrication and characterization of a silicon-based mDMFC, PowerMEMS2005, Tokyo, Japan.
[40] Yingqi Jiang, Xiaohong Wang et al., Design, Fabrication, and testing of a silicon-based air-breathing, PowerMEMS2005, Tokyo, Japan.

清华大学微电子所导师教师师资介绍简介-王晓红

本站小编 Free考研考试/2020-04-16

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