研究领域
招生信息
教育背景
工作经历
专利与奖励
出版信息
科研活动
基本信息
吴天准男博导中国科学院深圳先进技术研究院
电子邮件: tz.wu@siat.ac.cn
通信地址: 深圳西丽大学城学苑大道1068
邮政编码: 518055
研究领域
医疗电子芯片(SoC)及集成微系统
神经工程,植入式医疗,神经假体
生物芯片,BioMEMS,单分子/单细胞微流控
纳米生物材料,表界面工程
神经/视觉信号AI处理
招生信息
招收电子信息、微电子、生物医学工程、材料工程领域的博士及硕士生
招生专业
081102-检测技术与自动化装置083100-生物医学工程085400-电子信息招生方向
植入式医疗电子,神经工程医疗仪器, 生物信号处理,人工智能微机电系统,半导体工艺,集成电路设计教育背景
2006-10--2009-09日本东京大学工学博士2002-09--2004-07清华大学精密仪器系工学硕士1998-09--2002-07清华大学精密仪器系工学学士工作经历
工作简历
2016-12~现在,中国科学院深圳先进技术研究院,研究员2013-04~2016-12,中国科学院深圳先进技术研究院,副研究员2011-05~2013-04,中山大学物理与工程技术学院,讲师2010-02~2011-02,大阪大学生物信息系,JST ERATO博士后2009-10~2010-01,日本东京大学,博士后2004-08~2006-08,北京汇视源科技有限公司,研发工程师社会兼职
2020-05-01-今,IEEE, 高级会员2019-04-30-今,中国医促会健康大数据与数字化医疗分会, 青年学术部主任
2017-12-25-今,中国医促会健康大数据与数字化医疗分会, 常委
2016-01-01-今,中国微米纳米技术学会, 青年理事
2013-04-30-今,中国微米纳米技术协会, 高级会员,青年理事
专利与奖励
截止2020年初,累计申请发明专利40余项,授权专利40余项,包括2项日本发明专利。n MEMS2020国际会议最佳学生论文入围奖 2020
n 深圳市龙岗区创新创业先锋 2019
n 深圳市龙岗区深龙英才(B类) 2018-
n 深圳市南山区领航人才(B类) 2016-2018
n 高交会优秀产品奖 2018
n 高交会优秀产品奖,2个 2017
n 最佳海报奖, IEEE NEMS2017 2017
n 第五届中国创新创业大赛生物医药行业团队组冠军(项目负责人) 2016
n 第八届深圳创新创业大赛行业总决赛第三名(项目负责人) 2016
n 中科院深圳先进院医工所青年领军人才奖 2016
n 最佳海报奖, 第六届国际光流控国际会议 2016
n 最佳口头报告奖, 中国微米纳米技术学会2015年会 2015
n 最佳论文奖, IEEE 国际纳米材料和设备会议 (NMDC 2015) 2015
n 第四届国际光流控国际会议,最佳海报奖 2014
n 日本政府(MEXT)奖学金,东京大学 2006-2009
出版信息
发表论文
(1)Fast Polymerization of Polydopamine Based on Titanium Dioxide for High-Performance Flexible Electrodes,ACS Applied Materials Interface,2020,通讯作者(2)Pt nanodendrites with (111) crystalline facet as an efficient, stable and pH-universal catalyst for electrochemical hydrogen production,Chinese Chemical Letters,2020,通讯作者(3)Well Controlled 3D Iridium Oxide/Platinum Nanocomposites with Greatly Enhanced Electrochemical Performances,Advanced Materials Interfaces,2019,通讯作者(4)Dry adhesives based on ethylene vinyl acetate copolymer with strong adhesion and comprehensive advantages,Journal of Applied Polymer Science,2019,通讯作者(5)Self‐Unfolding Flexible Microelectrode Arrays Based on Shape Memory Polymers,Advanced Materials Technology,2019,通讯作者(6)Determination of Mercury(II) on A Centrifugal Microfluidic Device Using Ionic Liquid Dispersive Liquid?Liquid Microextraction,Micromachine,2019,通讯作者(7)Micro/Nano Technologies for High-Density Retinal Implant,Micromachine,2019,通讯作者(8)Highly stable and regenerative graphene-diamond hybrid electrochemical biosensor for fouling target dopamine detection,Biosensors & Bioelectronics,2018,其他(合作组作者)(9)Highly sensitive and selective potassium ion detection based on graphene Hall effect biosensors,Materials,2018,第5作者(10)Improved Capacitance Model Involving Fringing Effects for Electret-Based Rotational Energy Harvesting Devices,IEEE Transactions on Electron Devices,2018,第6作者(11)Dual extra-retinal origins of microglia in the model of retinal microglia repopulation,Cell Discovery,2018,其他(合作组作者)(12)Repopulated microglia are solely derived from the proliferation of residual microglia after acute depletion,Nature neuroscience,2018,第10作者(13)Photothermally Triggered Shape-Adaptable 3D Flexible Electronics,Adv. Mater. Technol.,2017,通讯作者(14)Electrodeposited Iridium Oxide on Platinum Nanocones for Improving Neural Stimulation Microelectrodes,Electrodeposited Iridium Oxide on Platinum Nanocones for Improving Neural Stimulation Microelectrodes,Electrochimica Acta,2017,通讯作者(15)Stretchable Superlyophobic Surfaces for Nearly- Lossless Droplet Transfer,Stretchable Superlyophobic Surfaces for Nearly- Lossless Droplet Transfer,Sensors and Actuators B: Chemical,2017,通讯作者(16)Surface modification of neural stimulating/recording electrodes with high-performance platium nano-leaf coatings,Proceeding of 21th International Conference Transducers’17,2017,通讯作者(17)Surface Modification of Neural Stimulating/Recording Microelectrodes with High-Performance Platinum-Pillar Coatings,Proceeding of IEEE NEMS 2017,2017,通讯作者(18)Design and Fabrication of A High-Density Flexible Microelectrode Array,Proceeding of IEEE NEMS 2017,2017,通讯作者(19)Iridium Oxide / Platinum Gray Composite Coatings on Microelectrodes for Neural Stimulation,Proceeding of IEEE NEMS 2017,2017,通讯作者(20)Thermal-induced three-dimensional shape transformations of hydrogel sheets,Proceeding of IEEE NEMS 2017,2017,第6作者(21)Direct PCR Amplification and In Situ Imaging Based on Alginate Droplets,Proceeding of IEEE MEMS 2017,2017,通讯作者(22)Inkjet Printing of Patterned Ultra-Slippery Surfaces for Planar Droplet Manipulation,Sensors and Actuators B: Chemical,2016,通讯作者(23)Modeling Pressure Stability and Contact Angle Hysteresis of Superlyophobic Surfaces Based on Local Contact Line,Modeling Pressure Stability and Contact Angle Hysteresis of Superlyophobic Surfaces Based on Local Contact Line,Journal of Physical Chemistry C,2015,通讯作者(24)Water as the colorful ink: transparent, rewritable photonic coatings based on colloidal particles embedded in chitosan hydrogel network,Water as the colorful ink: transparent, rewritable photonic coatings based on colloidal particles embedded in chitosan hydrogel network,Journal of Materials Chemistry C,2015,通讯作者(25)基于STM32的细胞换液自动控制系统,计算机系统应用,2015,通讯作者(26)基于微纳结构液体灌注的超滑表面的制备与应用,Fabrication and Application of Ultra-Slippery Surfaces Based on Liquid Infusion in Micro/Nano Structure,化学进展,2015,通讯作者(27)Engineering Superlyophobic Surfaces on Curable Materials Based on Facile and Inexpensive Microfabrication,Journal of Materials Chemistry A,2014,通讯作者(28)Well-controlled wet etching of ZnO films using hydrogen peroxide solution,Applied Surface Science,2014,通讯作者(29)High-performance Zero-bias Ultraviolet Photodetector Based on p-GaN/n-ZnO Heterojunction,High-performance Zero-bias Ultraviolet Photodetector Based on p-GaN/n-ZnO Heterojunction,Applied Physics Letters ,2014,通讯作者(30)Bio-inspired three-dimensional self-patterning of functional coatings for PDMS microfluidics,Soft Matter,2013,第1作者(31)分子束外延生长的极性与非极性 BeZnO 薄膜的比较研究,发光学报,2013,通讯作者(32)MgZnO半导体材料光致发光以及共振拉曼光谱研究,发光学报,2013,通讯作者(33)高质量ZnO及BeZnO薄膜的发光性质,发光学报,2013,通讯作者(34)Shrunk to femtolitre: tuning high-throughput monodisperse waterin-oil droplet arrays for ultra-small micro-reactors,Applied Physics Letters ,2012,第1作者(35)Liquid dielectrophoresis on electret : a novel approach towards CMOS-driven digital microfludics,Journal of Adhesion Science and Technology,2012,第1作者(36)Engineering superlyophobic surfaces as the microfluidic platform for droplet manipulation,Lab on a chip,2011,第1作者(37)Design and microfabrication of high-performance superlyophobic surfaces,Sensors and Actuators B: Chemical ,2011,第1作者(38)Low-voltage droplet manipulation using liquid dielectrophoresis on electret,Journal of Micromechanics and Microengineering,2010,第1作者(39)High-precision selective deposition of catalyst for facile localized growth of single-walled carbon nanotubes,Journal of American Chemical Society,2009,第2作者发表著作
(1)Delphi 7程序设计技巧与实例,Delphi 7 program design skills and examples,中国铁道出版社,2003-05,第1作者(2)Significance of Digital Microfluidics Techniques in Biomedical Devices for Healthcare,Elsevier,2020-05,第5作者科研活动
科研项目
( 1 ) 用于液滴操纵的高性能“超疏液功能平台”的相关技术和理论研究, 主持,国家级,2012-01--2014-12( 2 ) 新一代高分辨率人造视网膜关键技术研发及产业化, 参与,省级,2013-07--2018-06( 3 ) 新一代高分辨率人造视网膜关键技术研发, 参与,省级,2014-01--2018-12( 4 ) 基于微液滴操作的细胞标准化培养与快速玻璃化冻融自动装置, 参与,省级,2016-01--2018-12( 5 ) 基于驻极体和液滴微流控的环境能量收集型系统, 主持,省级,2016-01--2017-12( 6 ) 平面微流控的液滴操控机理、共性技术和应用研究, 主持,国家级,2015-01--2018-07( 7 ) 人工视网膜植入体的质量检测方法、平台与检验规范的研究, 主持,国家级,2016-07--2018-12( 8 ) 具有广泛抗生物粘附特性的界面材料研究, 主持,省级,2016-07--2019-06( 9 ) 基于皮肤粘附的仿壁虎干胶的机理、工艺及可穿戴应用, 主持,省级,2016-07--2018-06( 10 ) 基于微流控技术的心脑血管疾病预警关键技术研发, 参与,省级,2018-01--2019-12( 11 ) 应用于单细胞蛋白质组学的纳流控数字化纳米通道研究, 参与,国家级,2017-01--2018-12( 12 ) 贴合皮肤的新型仿生干胶的机理、工艺及可穿戴医疗应用, 主持,国家级,2018-01--2018-12( 13 ) 高密度薄膜电极及表界面修饰关键技术研究, 主持,省级,2018-07--2021-06( 14 ) 高分辨率人造视网膜临床前研究, 主持,部委级,2019-01--2019-12( 15 ) 基于高性能柔性电极阵列的人工视网膜临床前研究, 主持,省级,2019-09--2020-08( 16 ) 下一代视网膜植入物治疗失明的刺激策略研究, 主持,部委级,2020-01--2021-12参与会议
(1)Bioinspired Ultrafast Trapping of Microbead Array for Digital ImmunoassayZ. Peng, B. Jiang, T.Wu2020-01-18(2)Ultrafast and Inexpensive Microfabrication of Flexible Electrodes for Neural Recording/Stimulation Based on DC Electrophoresis Deposition and Nano-Titanium DioxideZ. Huang , Q. Zeng , J.Huang , S. Qin , and T. Wu*2020-01-18(3)High-performance Nanocrystal Platinum on Hierarchical Microelectrode for Biochemical Sensing曾齐2019-07-23(4)High-throughput Droplet Array Generated by Roller Nanoimprint Lithography with Biomimetic Surfaces彭智婷2019-07-23(5)Automatic Pretreatment for in-situ Cyropreservation of Single Stem Cells Based on Microfluidic Droplet Manipulation蒋伯石2019-06-23(6)Fabrication of Implantable Flexible Electrodes Based on Patternable Platium Nanowire and Polydopamine Layer黄兆岭2019-01-28(7)Facile and High-efficiency Microbead Array Based on Biomimetic Nepenthes Peristome Surfaces彭智婷2019-01-27(8)Time-frequency Image Enhancement of Frequency Modulation Signals by using Fully Convolutional networks夏轩2018-11-18(9)Application of Biocompatible Organic/Inorganic Composite Film in Implantable Retinal Prosthesis赵赛赛2018-10-25(10)Pt nanowires in situ growth on patterned polydopamine film for neural electrodes付博文2018-10-25(11)Iridium Oxide-Platinum Nanocomposite Coating for Neural Electrode2018-10-25(12)High-resolution Artificial Retina Based on New Micro/Nano Technologies2018-07-26(13)High-performance polymer dry adhesives based on ethylene vinyl acetate copolymer and high-adhesion mechanism2018-07-17(14)Chronically Implantable Package Based on Alumina Ceramics and Titanium with High-density Feedthroughs for Medical Implants2018-07-17(15)3D Nano-crystal Platinum for High-performance Neural Electrode2018-07-17(16)Droplet Manipulation for Biomedical Applications Based on Bionic Surface Egnineering2018-06-26(17)High-performance retina implant for clinical trial based on micro/nano engineering2018-04-23(18)Stretchable Superlyophobic Surfaces for Non-loss Droplet Transfer19th International Conference microTAS’15[L. Wang, Z. Wang], T. Wu*, Y. Zhao, Y. Suzuki2015-10-25(19)Colorful Coffee Ring Patterning Based on Evaporation-Driven Photonic Crystal Self-assembly19th International Conference microTAS’15[X.Du, T. Li], P.Shi and T.Wu2015-10-25(20)Rewritable Hydrogel Coatings Using Water As The Ink10th IEEE NEMS 2015X. Du, T. Li, L. Li, T. Wu2015-04-07(21)Modeling non-wetting performances of superlyophobic surfaces based on local contact lineIEEE International Conference MEMS‘15Z.Wang and T.Wu2015-01-19(22)High-performance and inexpensive ultra-slippery PDMS as the novel microfluidic platform18th International Conference on Miniaturized Systems for Chemistry and Life Sciences 10.[Y.Luo, S. Ling], J. Ma, T.Wu2014-10-26(23)Modeling Pressure stability and contact angle hysteresis based on contact line fraction for superlyophobic surfaces4th International Conference Optofluidics’14Z.Wang and T.Wu2014-08-28(24)Droplet manupulation on the patterned Ultra-slippery PDMS using Inkjet Printing4th International Conference Optofluidics’14S. Ling, Y. Luo, C. Wang and T.Wu2014-08-28(25)Microfabrication-aided wetting and mass transfer for droplet microfluidics4th International Conference Optofluidics’14T.Wu2014-08-28(26)Engineering Superlyophobic Surfaces on Curable Materials Based on Facile and Inexpensive Microfabrication17th International Conference on Miniaturized Systems for Chemistry and Life SciencesL. Yuan, W. Zhang, Z. Tang, T. Wu*, L. Zhang and L. Luan2013-10-27(27)Facile and Versatile Replication of High-performance Superlyophobic Surfaces on Curable Substrates Using Elastomer Molds8th IEEE International Conference on Nano Micro Engineered and Molecular SystemsL. Yuan, Z. Guan, M. Chen, R. Xiang, X. Gui, Y. Zhu, Z. Tang and T. Wu*2013-04-07(28)Monodisperse femtoliter water-in-oil droplet array for compartmentalizing artificial cells17th International Biophysics Congress (IUPAB)T. Wu*, H. Suzuki, T. Yomo, R. Xiang, X. Gui, Z. Tang2011-10-30(29)Reconstructing of gene expression in micro compartments17th International Biophysics Congress (IUPAB)K. Hirata, T. Wu, T. Matsuura, H. Suzuki, T. Yomo2011-10-30(30)Tunable Monodisperse Femtoliter Droplet Array Using 3D Microfluidic Traps15th International Conference on Miniaturized Systems for Chemistry and Life SciencesT. Wu*, H. Suzuki, T. Yomo, R. Xiang, X. Gui, Z. Tang2011-10-02(31)In-situ Generation and Shrinkage of Monodisperse Water-in-oil Emulsion for Femtoliter Compartmentalization Using Capillary Traps16th International Solid-State Sensors, Actuators and Microsystems ConferenceT. Wu*, H. Suzuki and T. Yomo2011-06-05(32)Bio-inspired 3D Self-patterning of Functional Coatings for PDMS Microfluidics16th International Solid-State Sensors, Actuators and Microsystems ConferenceT. Wu*, H. Suzuki and T. Yomo2011-06-05(33)Shrunk to Nano: A Novel Approach for Femtoliter Compartmentalization Using W/O Emulsions14th International Conference on Miniaturized Systems for Chemistry and Life SciencesT. Wu*, H. Suzuki and T. Yomo2010-10-03(34)Oil Droplet Manipulation Using Liquid Dielectrophoresis on Electret With Superlyophobic Surfaces23rd International Conference on Micro Electro Mechanical SystemsT. Wu*, Y. Suzuki, N. Kasagi and K. Kashiwagi2010-01-24(35)Design and Microfabrication of High-Performance Super-lyophobic Surfaces13th International Conference on Miniaturized Systems for Chemistry and Life SciencesT. Wu*, Y. Suzuki, and N. Kasagi2009-11-01(36)Electrostatic Droplet Manipulation Using Electret As a Voltage Source21st International Conference on Micro Electro Mechanical SystemsT. Wu*, Y. Suzuki and N. Kasagi2008-01-062013 © 中国科学院大学,网络信息中心.