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西北工业大学机电学院导师教师师资介绍简介-陶凯

本站小编 Free考研考试/2021-06-29

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基本信息 The basic information
陶凯

机电学院


博士研究生毕业

哲学博士


副教授

院长助理


机械工程,电子科学与技术


taokai@nwpu.edu.cn




工作经历 Work Experience
2017-至今,西北工业大学, 机电学院, 副教授

2015.12-2017,新加坡麻省理工技术研究联盟, 博士后




教育经历 Education Experience
2012.01-2016.07,南洋理工大学, 博士,机械与宇航工程(全额奖学金)
2009.09-2012.01,上海交通大学, 硕士, 微电子学与固体电子学(免试推荐)
2005.09-2009.06,中南大学, 学士, 微电子制造工程




教育教学 Education And Teaching
主讲本科生课程:《半导体物理与器件》48学时 秋季学期
主讲研究生课程:《能量收集技术》40学时 春季学期

主讲研究生课程:《微机电系统集成设计技术》40学时 春季学期

担任机电学院2016级本科生辅导员和微机电系统2018级本科生班主任


指导大学生创新创业项目:
2017年,国家级大学生创新创业训练计划创新训练项目“微型绿色能量收集器”(优秀结题指导老师:陶凯)

2018年,国家级大学生创新创业训练计划创新训练项目“新型多功能智能发电减速带”(优秀结题指导老师:陶凯)
2018年,国家级大学生创新创业训练计划 创新训练项目 “基于柔性传感与自供电技术功能鞋的研究” (指导老师:陶凯)

2018年,国家级大学生创新创业训练计划创新训练项目“PrintStation3D打印云平台”(指导老师:陶凯)
2019年,国家级大学生创新创业训练计划创新训练项目“基于球形驻极体波浪能发电机的自供电系统”在研(优秀结题 指导老师:陶凯)
2019年,国家级大学生创新创业训练计划创新训练项目“基于双螺旋结构的高效振动能量收集器”(指导老师:陶凯)
2019年,国家级大学生创新创业训练计划创新训练项目“基于复合式雨滴发电的星空伞研究”(指导老师:陶凯)
2019年,国家级大学生创新创业训练计划创新训练项目“基于气流发电与自供电技术的传统乐器研究”(指导老师:陶凯)
2020年,国家级大学生创新创业训练计划创新训练项目“基于多层蜂窝状驻极体发电下的可变形机翼发电”(指导老师:陶凯)

2020年,国家级大学生创新创业训练计划创新训练项目“自然能量发电薄膜的模块化设计与集成式应用”(指导老师:陶凯)

2020年,国家级大学生创新创业训练计划创新训练项目“基于柔性传感器的生物应变检测系统”(指导老师:陶凯)
2020年,国家级大学生创新创业训练计划创新训练项目“基于球形驻极体波浪能发电机的自供电系统”(指导老师:陶凯)



指导学生竞赛获奖:
2021年MEMS国际顶级会议IEEE MEMS2021“优秀论文提名奖”
2020年国际大学生ICAN创新创业大赛获全国总决赛国家一等奖(Top 5) (指导老师:陶凯)
2020年国际大学生数学建模竞赛 获国际一等奖1项 (指导老师:陶凯)
2020年第十三届全国大学生节能减排社会实践与科技竞赛 获国家一等奖、二等奖、三等奖各1项(指导老师:陶凯)
国际大学生ICAN创新创业大赛 2017获国家二等奖1项,2018三等奖2项(指导老师:陶凯)
陕西省工业工程创意改善竞赛 2018年获校级特等奖1项,2019/2020连续两年获省级特等奖1项(1/300) (指导老师:陶凯)
西北工业大学节能减排社会实践与科技竞赛 获校级一等奖4项,2018年1项,2019年1项,2020年2项 (指导老师:陶凯)
西北工业大学“三航杯”大学生课外学术科技作品竞赛 2019获特等奖1项,2020年获一等奖2项(指导老师:陶凯)
中国工程院“中国好设计”大赛(中国设计届的奥斯卡) 2019/2020年获中国工程院“创意奖”(指导老师:陶凯)
互联网+创新创业大赛 2019年获省级二等奖(指导老师:陶凯)



招生信息 Admission Information
本课题组特别重视对学生的培养,根据学生的特点和个人未来规划制定相应的培养方案,欢迎对微机电系统、纳米摩擦发电机、柔性电子等方向感兴趣的同学,特别是有学术理想的同学报考,有疑问可以邮件咨询(taokai@nwpu.edu.cn)



荣誉获奖 Awards Information
2018年入选陕西省高层次人才-青年项目
2019年入选西北工业大学“翱翔新星”计划

2019年入选陕西高校青年创新团队(排名第二)
2019年入选“中国百篇最具影响国际学术论文”
2019年 美国机械工程协会ASME智能材料与结构分会"年度最佳论文奖"
2021年国际微机电IEEEMEMS2021会议“优秀论文提名奖”
2019年 微系统与纳米技术MINE2019 "Young Scientist Award Finalist"
2019、2020年 中国工程院“中国好设计创意奖”
2019、2020年 陕西省第十(十一)届工业工程改善创意竞赛“优秀指导教师”
2020年 优秀本科毕业论文指导教师
2019年 优秀本科毕业论文指导教师
2018年 优秀本科毕业论文指导教师

2016年新加坡南洋理工大学最佳博士毕业论文提名
2012-2015新加坡新能源研究所奖学金
2012年上海交通大学优秀硕士论文提名/SMC高田奖学金
2009年中南大学优秀毕业生/中南大学优秀本科毕业论文
2007年国家励志奖学金
2006年国家奖学金



科学研究 Scientific Research
从事微机电系统(MEMS)振动俘能和自供电传感器的研究,主要研究工作包括:MEMS/NEMS,微/纳米发电机、储能/俘能微纳电池、自供能电子皮肤和可穿戴电子,课题组经费充足,近3年主持科研项目14项,其中纵向课题11项,横向课题3项,省部级以上项目5项,参与国家级项目2项,部分主持在研课题如下:

2018.01-2020.12 驻极体微型振动能量采集器的优化设计及非线性拓调频机制研究,国家自然科学基金青年项目 ,25万,主持
2019.01-2021.12 MEMS振动俘能与自供能传感,陕西省高层次人才-青年项目 ,主持
2019.01-2020.12 空天飞行器振动能量收集系统,航天科学技术基金 ,主持
2019.03-2020.12 驻极体的微型振动能量收集器,中央高校基本科研业务费(创新),主持
2018.03-2020.03 高度集成的可穿戴电池,深圳市自由探索基金,50万,主持
2018.01-2019.12 基于MEMS技术的静电式能量收集器的非线性宽频机理研究,陕西省自然科学基金青年人才项目 ,主持

2018.01-2019.12 基于驻极体的柔性供能技术,装备预研重点实验室基金,25万,主持
2018.01-2019.06 静电锁定MEMS振动传感器的试验与测试装备预研教育部联合基金子课题,主持

2017.04-2019.03 基于驻极体的微型振动能量收集器,中央高校基本科研业务费(启动经费),20万,主持



学术成果 Academic Achievements

书籍
B1.A.G.P. Kottapalli,K. Tao,Debarun Senguptaand M. S Triantafyllou (Professor, MIT, USA), (2019) “Self-Powered and Soft Polymer MEMS/NEMS Devices”, New York: Springer Publisher, USA, (eBook ISBN:978-3-030-05554-7; Soft Cover ISBN: 978-3-030-05553-0)
书籍章节

C4.K. Tao, H.L. Chang, J. Wu, L.H. Tang, J.M. Miao (2019) “MEMS/NEMS-Enabled Energy Harvesters as Self-Powered Sensors”, in Self-Powered and Soft Polymer MEMS/NEMS Devices (New York: Springer Publisher, USA), pp.1-30 Print ISBN:978-3-319-50822-1; Online ISBN:978-3-319-50824-5
C3.K. Tao, J. Wu, S.W. Lye, J.M. Miao, and Michael S. Triantafyllou, (2016) “MEMS/NEMS-enabled Vibrational Energy Harvesting for Self-powered and Wearable Electronics” in Nanoscale Semiconductor Devices, MEMS, and Sensors: Outlook and Challenges (New York: Springer Publisher, USA), pp. 271-297 Print ISBN:978-3-319-50822-1; Online ISBN:978-3-319-50824-5
C2. J. Wu, K. Tao,J. M. Miao, L.K. Norford, (2017) “Graphene for future high-performance gas sensor”, in Outlook and Challenges of Nano Devices, Sensors, and MEMS (New York: Springer Publisher, USA), pp. 347-363 Print ISBN:978-3-319-50822-1; Online ISBN:978-3-319-50824-5
C1.K. Tao, S.W. Lye, J.M. Miao, and X. Hu, (2016) “Micro electret-based power generator for ambient vibrational energy harvesting” inEnergy Harvesting: Technology, Methods and Applications(New York: Nova Science Publishers Inc.), pp. 19-54
期刊论文(Selected Publications)
2020
J47. K. Tao*, H.P. Yi, Y. Yang, et al., (2020) "Origami-inspired electret-based triboelectric generator for biomechanical and ocean wave energy harvesting",Nano Energy,Vol.67, p. 104191(Q1, IF:15.5)
J46. K. Tao*, H.P. Yi, Y. Yang, et al., (2020) "Miura-Origami-Inspired Electret/Triboelectric Power Generator for Wearable Energy Harvesting with Water-Proof Capability",Microsystems & Nano Engineering,Vol., p.(Q1, IF:5.6)
J45. J. Wu, Z.Wu, Y.Wei…K. Tao*, X, Xie, (2020) "Ultrasensitive and Stretchable Temperature Sensor Based on Thermally Stable and Self-Healing Organohydrogels", ACS applied materials & interfaces, Vol., pp. (Q1, IF: 8.5)
J44. Y.J. Li, K. Tao, B. George and Z.C. Tan, (2020) " Harvesting Vbration Energy: Technologies and Challenges ",IEEE Industrial Electronics Magazine,Vol., p.(Q1, IF:13.2)
J43. Q. Tan, K. Fan, K. Tao*, L. Zhao, M. Cai (2020) "A two-degree-of-freedom string-driven rotor for efficient energy harvesting from ultra-low frequency excitations",Energy,Vol., p. 117107(Q1, IF: 5.5)

J42. Z.S. Yang, L.H. Tang, K. Tao*, K. Aw, (2020) "Modelling and Analysis of an Out-of-plane Electret-Based Vibration Energy Harvester with AC and DC Circuits, Mechanical Systems and Signal Processing, Vol.140, p.106660 (Q1, IF:5.0)
J41. J. Xie, Y. Wang, R. Dong, K. Tao*, (2020) “Wearable Device Oriented Flexible and Stretchable Energy Harvester Based on Embedded Liquid-Metal Electrodes and FEP Electret Film”, Sensors, Vol. 20, P.458 (Q1, IF: 3.0)


2019
J40.K. Tao*, H. Yi, L.H. Tang, et al., (2019) "Piezoelectric ZnO thin films for 2DOF MEMS vibrational energy harvesting", Surface and Coatings Technology , Vol. 359, pp. 289-295(Q1, IF:3.2, ESI Highly Cited Paper & Hot Paper)
J49. J. Wu,Z.Wu, S. Han, B.R. Yang, X. Gui, K. Tao*,Y. Shen, J. M. Miao and L. K. Norford (2019), "Extremely Deformable, Transparent, and High-Performance Gas Sensor Based on Ionic Conductive Hydrogel"ACS applied materials & interfaces,Vol. 359, pp. 2364-2373 (Q1, IF: 8.5, ESI Highly Cited Paper & Hot Paper)
J38. J. Wu, Z. Wu, H. Xu, Q. Wu, C. Liu, B.R. Yang, X. Gui, X. Xie, K. Tao*, and Y. Shen (2019) “An intrinsically stretchable humidity sensor based on anti-drying, self-healing and transparent organohydrogels”, Materials Horizons, Vol. 6, pp. 595-603 (Q1, IF: 14.4, ESI Highly Cited Paper)
J37.J. Wu, Z. Wu, X. Lu, S. Han, B.R. Yang, X. Gui, K. Tao*, J. Miao, and C. Liu (2019) “Ultrastretchable and Stable Strain Sensors Based on Antifreezing and Self-Healing Ionic Organohydrogels for Human Motion Monitoring”, ACS applied materials & interfaces, Vol. 11, pp. 9405-9414 (Q1, IF: 8.5, ESI Highly Cited Paper)
J36. Z.S. Yang, L.H. Tang, K. Tao, K. Aw, (2019) “Modelling and validation of electret-based vibration energy harvesters in view of charge migration”, International Journal of Precision Engineering and Manufacturing-Green Technology, https://doi.org/10.1007/s40684-019-00156-8 (Q1, IF: 4.6)
J35. G. Chen, L. Tang, Z. Yang, K. Tao, and Z Yu (2019) “An electret‐based thermoacoustic‐electrostatic power generator”, International Journal of Energy Research, https://doi.org/10.1002/er.5019 (Q1, IF: 3.3)
J34.J. Wu, Y. Sun, Z. Wu, X. Li, N. Wang, K. Tao, and GP Wan (2019) “Carbon nanocoil-based fast-response and flexible humidity sensor for multifunctional applications”, ACS applied materials & interfaces, Vol. 11, pp. 4242-4251 (Q1, IF: 8.5, ESI Highly Cited Paper)
J33. Z. Yang, L.H. Tang, K. Tao, K. Aw (2019) “A broadband electret-based vibrational energy harvester using soft magneto-sensitive elastomer with asymmetrical frequency response profile”, Smart Materials and Structures, Vol. 28, P. 10LT02 (Q1, IF: 3.5)
J32. N. Wang, E. Kanhere, K. Tao, L. Hu, J. Wu, J. Miao, and MS Triantafyllou (2019) “Investigation of a Thin‐film Quasi‐reference Electrode Fabricated by Combined Sputtering‐evaporation Approach”, Electroanalysis, Vol. 31, pp. 560-56 (Q2, IF: 2.7)
J31. Y. Yang, J Wang, Y Zhu, L Lan, H Zhang, C Liu, K. Tao, and J Li (2019) “Fe3C/C nanoparticles encapsulated in N-doped graphene aerogel: an advanced oxygen reduction reaction catalyst for fiber-shaped fuel cells”, International Journal of Hydrogen Energy, Vol. 44, No. 33, pp. 18393-18402 (Q1, IF: 4.1)
J30. K. Huang, J. Wu, Z. Chen, H. Xu, Z. Wu, K. Tao, et al., (2019) “Nanostructured High-Performance Thin-Film Transistors and Phototransistors Fabricated by a High-Yield and Versatile Near-Field Nanolithography Strategy”, ACS Nano, Vol. 13, pp. 6618-6630 (Q1, IF: 13.9)
J29.Y. Fu, W. Li, Y. Guo, Q. Tang, X. Zu, J. Ma, L. Wang, K. Tao, and Hamdi Torun (2019) "Highly sensitive ultraviolet sensor based on ZnO nanorod film deposited on ST-cut quartz surface acoustic wave devices", Surface and Coatings Technology, Vol. 363, pp. 419-425 (Q1, IF: 3.2)
J28. Y. Yang, H. Zhang, J. Wang, S. Yang, T. Liu, K. Tao, and H Chang (2019) “A silver wire aerogel promotes hydrogen peroxide reduction for fuel cells and electrochemical sensor”, Journal of Materials Chemistry A, Vol. 7, pp. 11497-11505 (Q1, IF: 10.7)
J27. J. Wu, Z. Wu, K. Tao, C. Liu, B. Yang, X. Xie, and X Lu (2019) “Rapid-response, reversible and flexible humidity sensing platform using a hydrophobic and porous substrate”, Journal of materials chemistry B, Vol. 7, No.12, pp. 2063-2073 (Q1, IF: 5.0)
J26. M. Evans, L. Tang, K. Tao, and K Aw (2019) “Design and optimisation of an underfloor energy harvesting system” Sensors and Actuators A: Physical, Vol. 285, pp. 613-622 (Q1, IF: 2.7)


2018
J25. K. Tao*, L.H. Tang,J. Wu, S.W. Lye, H.L. Chang, J.M. Miao (2018)"Investigation of Multimodal Electret-based MEMS Energy Harvester with Impact-induced Nonlinearity", IEEE/ASME Journal of Microelectromechanical Systems,Vol. 27, No.2, pp.276-288 (Q1, IF: 2.6, ESI Highly Cited Paper & Hot Paper, 2019 ASME Branch Best Paper Award )
J24. J. Wu, S. Han, T. Yang, Z. Li, Z. Wu, X. Gui, K. Tao*, J. Miao, L. Norford, and C Liu (2018) “Highly Stretchable and Transparent Thermistor Based on Self-Healing Double Network Hydrogel”, ACS Applied Materials & Interfaces, Vol. 36, pp. 30744-784 (Q1, IF: 8.5)
J23. L. Hu, K. Tao, Y.D. Lim, and J. Miao (2018) “Self-Steerable Propulsion of Disk-Like Micro-Craft with Dual Off-Center Nanoengines”, ACS Applied Energy Materials, Vol. 2, pp. 1657-166
J22. Y. Yang, Y. Xue, F. Huang, H. Zhang, K. Tao, R. Zhang, Q. Shen, and H Chang (2018) “A Facile Microfluidic Hydrogen Peroxide Fuel Cell with High Performance: Electrode Interface and Power-Generation Properties”, ACS Applied Energy Materials, Vol. 1, pp. 5328-5335
J21. L. Hu, S. Rehman, K. Tao, and J. Miao (2018) “Characterization on Three‐Dimensional Trajectory of Disk‐Like Gold‐Nickel‐Platinum Nanomotor Using Digital Holographic Imaging”, ChemistrySelect, Vol.4, pp. 9634-9640 (Q2, IF: 1.7)
J20. Y. Yang, T. Liu, K. Tao, and H Chang (2018) “Generating Electricity on Chips: Microfluidic Biofuel Cells in Perspective” Industrial & Engineering Chemistry Research, Vol. 57, pp. 2746-2758 (Q1, IF: 3.4)
J19. J. Wu, S. Feng, Z. Li, K. Tao, J. Chu, J. Miao, and L. Norford (2018) “Boosted sensitivity of graphene gas sensor via nanoporous thin film structures”, Sensors and Actuators B: Chemical, Vol. 255, pp. 1805-1813 (Q1, IF: 6.4)
J18. J. Wu, Z. Li, X. Xie, K. Tao, C. Liu, K.A. Khor, J. Miao, and LK Norford (2018) “3D superhydrophobic reduced graphene oxide for activated NO 2 sensing with enhanced immunity to humidity”, Journal of Materials Chemistry A, Vol. 6, pp. 478-488 (Q1, IF: 10.7)
2017
J17. K. Tao, J. Wu, L.H. Tang, et al. (2017) "Enhanced electrostatic vibrational energy harvesting using integrated opposite-charged electrets", Journal of Micromechanics and Microengineering, vol. 26, p. 044002 (Q2, IF: 2.1)
J16. K. Tao*, J Wu, AGP Kottapalli, D Chen, Z Yang, G Ding, SW Lye, and J Miao (2017) “Micro-patterning of resin-bonded NdFeB magnet for a fully integrated electromagnetic actuator”, Solid-State Electronics, Vol. 138, pp. 66-72 (Q2, IF: 1.5)
J15. J. Wu, K. Tao, J. Miao, and L.K. Norford (2017) “Enhanced gas sensing by 3D water steamed graphene hydrogel” Solid-State Electronics, Vol. 138, pp. 101-107 (Q2, IF: 1.5)
J14. J. Wu, K. Tao, Y. Guo, et al. (2017) “A 3D chemically modified graphene hydrogel for fast, highly sensitive, and selective gas sensor”, Advanced Science, Vol. 4, p. ** (Q1, IF: 15.8)
2016
J13.K. Tao, J. Wu,L.H. Tang,X. Xia,S.W. Lye, J.M. Miaoand X. Hu, (2016)"A novel two-degree-of-freedom MEMS electromagnetic vibration energy harvester",Journal of Micromechanics and Microengineering,vol. 26, p. 035020 (Q2, IF: 2.1)
J12.J. Wu,K. Tao, J. Zhang, Y. Guo, J. M. Miao and L.K. Norford,(2016)"Chemically functionalized 3D graphene hydrogel for high performance gas sensing",Journal of Materials Chemistry A, Vol. 4, pp. 8130-8140 (Q1, IF: 10.7)
J11. J. Wu, S. Feng, X. Wei, J. Shen, W. Lu, H. Shi, K. Tao, S. Lu, T. Sun, L .Yu, C. Du, and J.M. Miao, “Facile synthesis of 3D graphene flowers for ultrasensitive and highly reversible gas sensing”, Advanced Functional Materials, Vol. 26, No. 41, pp. 7462-7469 (Q1, IF: 15.6)
J10. J. Wu, C. Liow, K. Tao, Y. Guo, X. Wang, and J. Miao “Large-Area Sub-Wavelength Optical Patterning via Long-Range Ordered Polymer Lens Array” ACS applied materials & interfaces, Vol. 8, pp. 16368-16378 (Q1, IF: 8.5)
J9. L. Hu, K. Tao, J. Miao, and G. Grüber “Hydrogen-peroxide-fuelled platinum–nickel–SU-8 microrocket with steerable propulsion using an eccentric nanoengine”, RSC advances, Vol. 6, pp. 102513-102518 (Q1, IF: 3.0)
J8.J. Wu,K. Tao, J. M. Miao, L.K. Norford, (2015) “Improved selectivity and sensitivity of gas sensing using 3D reduced graphene oxide hydrogel with integrated microheater”,ACS applied materials & interfaces, Vol. 7, pp. 27502-27510 (Q1, IF: 8.5)


2015 and before
J7.K. Tao, S.W. Lye, L.H. Tang, J.M. Miao, and X. Hu, (2015) “Out-of-plane electret-based MEMS energy harvester with the combined nonlinear effect from electrostatic force and a mechanical elastic stopper”,Journal of Micromechanics and Microengineering, vol. 10, p. 104014 (Q2, IF: 2.1)

J6.K. Tao, J.M. Miao, S.W. Lye and X. Hu, (2015) "Sandwich-structured two-dimensional MEMS electret power generator for low-level ambient vibrational energy harvesting",Sensors and actuators A: Physicsvol. 228, pp. 95-103 (Q1, IF: 2.7)
J5.J. Wu,K. Tao, and J.M. Miao, (2015) "Production of centimeter-scale sub-wavelength nanopatterns by controlling the light path of adhesive photomasks,"Journal of Materials Chemistry C, Vol. 3, pp. 6796-6808 (Q1, IF: 6.6)
J4.K. Tao, S.W. Lye, J.M. Miao and X. Hu, (2015)"Design and implementation of an out-of-plane MEMS electret power generator for low-level ambient vibrational energy harvesting",Microelectronics Engineeringvol. 135, pp. 32-37 (Q2, IF: 1.7)
J3.K. Tao, S.W. Liu, S.W. Lye, J.M. Miao and X. Hu, (2014) "A three-dimensional electret-based micro power generator for low-level vibrational energy harvesting",Journal of Micromechanics and Microengineering, vol. 24, p. 065022 (Q2, IF: 2.1)
J2.K. Tao, S.W. Lye, J.M. Miao, and X. Hu, "Performance enhancement of an out-of-plane electret-based vibrational energy harvester with dual charged plates", Journal of Physics: Conference Series, vol. 557, p. 012064, 2014.

J1.P.H. Wang,K. Tao, Z. Yang, and G.F. Ding, (2013) "Resin-bonded NdFeB for integration into electromagnetic vibration energy harvesters",Journal of Zhejiang University SCIENCE C, vol. 14, pp. 283-287


会议论文(IEEE MEMS/TRANSDUCERS

C11.K. Tao, B. Wang, Y. Chen,et al."Rotary Energy Harvester with Bipolar Charged Electrets", 29th IEEE International Conference on on Micro Electro Mechanical Systems (IEEE MEMS 2019) Seoull, 27-31 January, pp. 366-369
C10. H. Yi,K. Tao*, H.L. Chang,et al."Honeycomb-inspired Triboelectric Generator for Self-powered Instantaneous Tactile Imaging", 29th IEEE International Conference on on Micro Electro Mechanical Systems (IEEE MEMS 2019) Seoull, 27-31 January, pp. 366-369(Oral,9.8%acceptance ratio)
C9.K. Tao, J. Wu , A.G.P. Kottapalli,et al"Electrostatic/triboelectric hybrid power generator using folded electret", 30th IEEE International Conference on Micro Electro Mechanical Systems (IEEE MEMS 2017) Las Vegas, 22-26 January, pp.45-48 (EI,Oralacceptance rate9.8%,Young Scientist Travel Grant)
C8. K. Tao,H.L. Chang, J.Wu, et al., "Enhanced performance of electrostatic energy harvester with integrated opposite-charged electrets", 19th International Conference on Solid-State Sensors, Actuators and?Microsystems (TRANSDUCERS 2017), TAIWAN, June 18 - 22, 2017, pp. 1840-1843.
C7.J. Wu,K. Tao, and J. Miao, ”Gradient lithography using graded tip array”, 19th International Conference on Solid-State Sensors, Actuators and Microsystems (TRANSDUCERS 2017), TAIWAN, June 18 - 22, 2017, pp. 1312-1315.
C6.K. Tao, J. Wu, L.H. Tang, N. Wang, S.W. Lye and J.M. Miao, "Broadband energy harvesting using a nonlinear 2DOF MEMS electret-basedmicro power generator", 29th IEEE International Conference on Micro Electro Mechanical Systems(IEEE MEMS 2016)Shanghai, 24-28 January(Acceptance rate39%)
C5.J. Wu,K. Tao, J. M. Miao and L. K. Norford, “3D porousgraphene hydrogel for improved gas sensing performance at elevated temperature”, 29th IEEE International Conference on Micro Electro Mechanical Systems(IEEE MEMS 2016)Shanghai, 24-28 January(Acceptance rate39%)
C4.K. Tao, S.W. Lye, J.M. Miao and X. Hu "A sandwich-structured mems electret power generator for multi-directional vibration energy harvesting", 18th International Conference on Solid-State Sensors, Actuators and Microsystems(TRANSDUCERS 2015), Alaska, 22-26 June(Oral presentation, oral acceptance rate20.7%)
C3.K. Tao, S.W. Lye, J.M. Miao and X. Hu "Experimental study of micro-patterned PDMS/PTFE composite electret for MEMS energy harvesting devices", 8th International Conference on Materials for Advaned Technologies of the Materials Research Society of Singapore(ICMAT 2015),Singapore, 28 June to 03 July
C2.K. Tao, S.W. Lye and J.M. Miao "A three-dimensional electrostatic/electret micro power generator for low acceleration and low frequency vibration energyharvesting", 27th IEEE International Conference on on Micro Electro Mechanical Systems(IEEE MEMS 2014)San Francisco, 26-30 January(Acceptance rate36%)
C1.K. Tao, G.F. Ding, P. Wang, Z. Yang, and Y. Wang, "Fully integrated micro electromagnetic vibration energy harvesters with micro-patterning of bondedmagnets", 25th IEEE InternationalConference on Micro Electro Mechanical Systems(IEEE MEMS 2012)Paris, 18-22 January(Acceptance rate33%)


授权发明专利

P1. 陶凯,杨卓青,丁桂甫,吴义伯,基于电热驱动的可调频微型振动能量采集器,授权专利号:CNA

P2. 杨卓青,陶凯,丁桂甫,王艳,微型电磁式宽频带振动能量采集器,授权专利号:CNA
P3. 丁桂甫,陶凯,杨卓青,王艳,周海林,基于永磁阵列的电磁式宽频带振动能量采集器,授权专利号:CN A

P4. K. Tao, S.W. Lye and J.M. Miao, Ultra-robust Origami-inspired Electret/triboelectric Micro Power Generator, (国际专利,SGW,Filed)
P5. Rahul, K. Tao, S.W. Lye and J.M. Miao, PVDF Nanofibre Sensors for Real-time Monitoring of Vibro-acoustic Dynamics in a Tennis Racket, (国际专利,SG R,Filed)



社会兼职 Social Appointments
[1]担任陕西省振动工程学会常务理事
[2]担任西安机械工程学会常务理事、青年工作委员会主任
[3]担任全国驻极体会议学术委员会委员
[4]担任MEMS国际期刊核心期刊《Nanotechnology and Precision Engineering》青年编委
[5]担任SCI杂志《Micromachines》(IF:2.53)客座编辑
[6]担任SCI杂志《Shockand Vibration》客座编辑
[7] 中国微纳米技术学会高级会员、中国机械工程学会高级会员、IEEE会员,受邀请作为三十多个主流SCI杂志审稿人,包含:
Nature Nature Communication, ELSEVIER Nano Energy,IEEE/ASME Journal of microelectromechanical systems,AIPApplied Physics Letters,IEEEAccess,IOP Journal of Micromechanics and Microengineering, IOP Smart Materials and Structures, IEEE Trans. on Electronic Devices, IEEETransactions on Biomedical Engineering,IEEESensors,ELSEVIERMechanical Systems and Signal Processing,ELSEVIER Sensors and Actuators A: Physical,AIP Advance,ACS Omega,ACSapplied materiasl and interface,Wiley Journal of biomedical materials research Part B,MDPISensors,IOP Journal of Physics D: Applied Physics,DE GRUYTER Energy Harvesting and Systems,ELSEVIERSurface & Coating Technology,ELSEVIER Applied Surface Science,ELSEVIERThin Solid Films,ELSEVIER Physica E: Low-dimensional Systems and Nanostructures, Springer Microsystem Technologies, Shock and Vibrations,MDPI Micromachines, MDPI Applied Science, MDPIActuactors,MDPI Engergies等。





团队信息 Team Information
指导硕士生:易海平(17级,校优秀毕业生,校优秀硕士毕业论文,2020年上海交大密西根学院读博)
王一炜(18级),申亚杰(18级), 陈振生(19级),曹勇琪(19级),Camille(19级),赵哲(20级),张健(20级),高洋洋(20级)
指导留学生:Camille Chagnot(法国INSA-LYON,硕士研究生2019.9-2022.9 ) ,Harm Gielen(荷兰Avans大学,本科交流生2017.9-2018.1 ),Devin Matthijsse和Matthew Motz (荷兰Avans大学,本科交流生 2019.4-2019.7 ),Emeric Fayet和Guillaume Surier Garofalo(法国Université Clermont-Auvergne大学,本科交流生 2019.6-2019.9 )
18届本科毕业生:王彬乔(校优秀本科毕业论文,美国密歇根大学读研);高宇轩(加拿大麦吉尔大学读研); 舒童(上海交大读研);
申晓天(校优秀本科毕业论文,天津大学直博);陈一鑫(西工大“3+2”项目,比利时布鲁塞尔自由大学读研)
19届本科毕业生:谭昊易(校优秀本科毕业论文,北航直博);任超 (上海交大读研) ; 陈浩(天津大学读研);张鹏(中科院微系统所读研)
20届本科毕业生:徐梦飞(校优秀本科毕业论文,上海交大直博);赵哲(西工大本课题组读研);张健(西工大本课题组读研);高洋洋(西工大本课题组读研)
陈栋钦 (校优秀本科毕业论文,中科院微系统所直博) ;



综合介绍 General Introduction
从事微机电系统(MEMS)振动俘能和自供电传感器的研究, 已合作撰写专著1部,书籍章节4章,以第一/通讯作者发表SCI论文18篇,论文引用1800余次,H因子22,其中有6篇ESI高被引论文,3篇热点论文,JMEMS论文入选“2018年中国百篇最具影响国际学术论文”和获2019美国机械工程协会(ASME)智能结构与材料分会“年度最佳论文奖”,获第34届国际微机电系统会议IEEE MEMS2021"优秀论文提名奖"。现担任陕西省振动工程学会常务理事、西安机械工程学会常务理事、青年工作委员会主任、全国驻极体会议学术委员会委员,MEMS核心期刊《Nanotechnology and Precision Engineering》青年编委, SCI杂志《Shock and Vibration》客座编委,SCI杂志《Micromachines》客座编委,第8届纳电子国际会议IEEE INEC 2018分会主席,先进智能机电一体化国际会议IEEE/ASME AIM 2018分会主席,第46届工业电子年会IECON 2020分会主席,以及第3届振动与能量收集国际会议VEH2021大会主席。


Research Gate: https://www.researchgate.net/profile/Kai_Tao2

ResearchID:https://orcid.org/0000-0003-1848-8561
Google Scholar: https://scholar.google.com/citations?hl=en&user=SFv8yckAAAAJ
欢迎参加VEH2021会议:http://veh2020.scievent.com/
欢迎参加IECON2020会议:https://www.iecon2020.org/

欢迎投稿Micromachanies(IF:2.53)能量收集特刊:https://www.mdpi.com/journal/micromachines/special_issues/smart_devices_systems



English Version


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