康晓洋

时间:2018-12-16浏览:5355设置


  康晓洋


 职称:青年副研究员,硕士生导师

 主页:https://www.researchgate.net/profile/Xiao_Yang_Kang

 邮箱:xiaoyang_kang@fudan.edu.cn




个人简介

 康晓洋,博士,皇家国际娱乐在线客服青年副研究员。2010年获西安电子科技大学学士学位,2016年获得上海交通大学博士学位。2016年至2018年在瑞士洛桑联邦理工学院进行博士后研究。2018年10月入职皇家国际娱乐在线客服。共发表期刊和会议论文27篇,获得国家发明专利授权16项。现在智能机器人研究院招生生物医学工程专业硕士生,招收生物医学微机电系统,神经工程,智能算法与电子等方向的硕士研究生。



研究方向

 主要从事生物医学微机电器件与系统、神经工程与脑机交互研究,可应用于植入式/穿戴式刚性、柔性与软性神经接口器件,神经假体与神经康复,人机交互、意念控制、人工智能等领域。



代表性成果

科研项目

  1. 2019年度上海市青年科技英才扬帆计划项目,面向瘫痪康复的柔软性可植入神经接口器件关键技术研究,2019.05-2022.04

  2. 2019年度上海市“科技创新行动计划”生物医药领域科技支撑项目,基于FPCMEMS工艺的光遗传学可植入新型光神经接口器件研究,2019.04-2022.03

  

学术论文

  1. X. Y. Kang, J. Q. Liu, H. C. Tian, B. Yang, et al., Sputtered iridium oxide modified flexible parylene microelectrodes array for electrical recording and stimulation of muscles, Sensors and Actuators B: Chemical, 225(2016) 267-78. IF=5.401

  2. X. Y. Kang, J. Q. Liu, H. C. Tian, B. Yang, Y. N. Nuli, and C. S. Yang, Self-Closed Parylene Cuff Electrode for Peripheral Nerve Recording, Journal of Microelectromechanical Systems, vol. 24, pp. 319-332, 2015. IF=2.124

  3. X. Y. Kang, J.Q. Liu, H.C. Tian, C. Zhang, B. Yang, Y. NuLi, et al., Controlled activation of iridium film for AIROF microelectrodes, Sensors and Actuators B: Chemical, 190(2014) 601-11. IF=5.401

  4. X. Y. Kang, J.Q. Liu, H.C. Tian, B. Yang, Y.N. NuLi, C.S. Yang, Optimization and electrochemical characterization of RF-sputtered iridium oxide microelectrodes for electrical stimulation, Journal of Micromechanics and Microengineering, 24(2014). IF=1.794

  5. X. Y. Kang, J. Q. Liu, H. C. Tian, B. Yang, H. Y. Zhu, Y. N. Nuli, et al., Surgical suture inspired wire microelectrodes implant for enhancing functional electrical stimulation, Microsystem Technologies, vol. 21, pp. 611-617, 2015. IF=1.195

  6. X. Y. Kang, J. Q. Liu, H. C. Tian, B. Yang, Y. N. Nuli, and C. S. Yang, Fabrication and Electrochemical Comparison of SIROF-AIROF-EIROF Microelectrodes for Neural Interfaces, 2014 36th Annual International Conference of the IEEE Engineering In Medicine and Biology Society (EMBC), pp. 478-481, 2014.

  7. X. Y. Kang, J.Q. Liu, H.C. Tian, J.C. Du, B. Yang, H.Y. Zhu, et al., “Fabrication and Degradation Characteristic Of Sputtered Iridium Oxide Neural Microelectrodes for Fes Application”, 2014 IEEE 27th International Conference on Micro Electro Mechanical Systems (MEMS), (2014) 616-9.

  8. G. Schiavone, F. Wagner, F. Fallegger, X. Y. Kang, N. Vachicouras, B. Barra, M. Capogrosso, J. Bloch, G. Courtine, S. Lacour, Long-term functionality of a soft electrode array for epidural spinal cord stimulation in a minipig model, 2018 40th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC), pp. 1432-1435, 2018.

  9. BW Ji, X. Y. Kang, et al., Photoelectric neural interface combining wire-bonding μleds with iridium oxide microelectrodes for optogenetics, 2017 IEEE 30th International Conference on Micro Electro Mechanical Systems (MEMS).

  10. HC Tian, JQ Liu, X. Y. Kang, et al., Enhanced Flexible Tubular Microelectrode with Conducting Polymer for Multi-Functional Implantable Tissue-Machine Interface, Scientific Reports, 2016, 6 :26910. IF=4.259

  11. B Ji, M Wang, X. Y. Kang, et al., Flexible Optoelectric Neural Interface Integrated Wire-Bonding $\mu $ LEDs and Microelectrocorticography for Optogenetics, IEEE Transactions on Electron Devices 64 (5), 2017, 2008-2015. IF=2.605

  12. H.C. Tian, J.Q. Liu, X. Y. Kang, Q. He, B. Yang, X. Chen, et al., Flexible multi-channel microelectrode with fluidic paths for intramuscular stimulation and recording, Sensors and Actuators A: Physical, 228(2015) 28-39. IF=2.499

  13. H.C. Tian, J.Q. Liu, X. Y. Kang, D.X. Wei, C. Zhang, J.C. Du, et al., Biotic and abiotic molecule dopants determining the electrochemical performance, stability and fibroblast behavior of conducting polymer for tissue interface, RSC Advance, 4(2014) 47461-71. IF=3.108

  14. HC Tian, JQ Liu, X. Y. Kang, et al., Implantable multi-functional flexible microelectrode combining electrical and chemical interface, 2016 IEEE 29th International Conference on Micro Electro Mechanical Systems (MEMS).

  15. J.Q. Liu, Y.F. Rui, X. Y. Kang, B. Yang, X. Chen, C.S. Yang, A Novel Transdermal Power Transfer Device for the Application of Implantable Microsystems, Micromachines-Basel, 6(2015) 396-408. IF=1.833

  16. H.C. Tian, J.Q. Liu, X. Y. Kang, D.X. Wei, C. Zhang, J.C. Du, et al., Poly (3,4-ethylenedioxythiophene) / Graphene Oxide Composite Coating for Electrode-Tissue Interface, 2014 36th Annual International Conference of the IEEE Engineering In Medicine And Biology Society (EMBC), (2014) 1571-4.

  17. H.C. Tian, J.Q. Liu, D.X. Wei, X. Y. Kang, C. Zhang, J.C. Du, et al., Graphene oxide doped conducting polymer nanocomposite film for electrode-tissue interface, Biomaterials, 35(2014) 2120-9. IF=8.402

  18. LJ Tang, MH Wang, HC Tian, X. Y. Kang, et al., Progress in Research of Flexible MEMS Microelectrodes for Neural Interface, Micromachines 8 (9), 2017, 281. IF=1.833

  19. L.Y. Zhang, J.Q. Liu, B. Yang, X. Y. Kang, S.D. Jiang, J.B. Mei, et al., Optimized fabrication of micropipette using laser micromachining process and application in functional electrical stimulation of muscle tissue, Microelectronic Engineering, 103(2013) 131-6. IF=1.806

  20. C. Zhang, J.Q. Liu, H.C. Tian, X. Y. Kang, J.C. Du, Y.F. Rui, et al., Implantable electrode array with platinum black coating for brain stimulation in fish, Microsystem Technologies, 21(2015) 139-45. IF=1.195

  21. H.C. Tian, J.Q. Liu, J.C. Du, X. Y. Kang, C. Zhang, B. Yang, et al., Flexible Intramuscular Micro Tube Electrode Combining Electrical and Chemical Interface, 2014 36th Annual International Conference of the IEEE Engineering In Medicine and Biology Society (EMBC), (2014) 6949-52.

  22. G. Jie, L. Jingquan, Y. Bin, Z. Guanghui, X. Y. Kang, T. Hongchang, et al., Low-Voltage Transient/Biodegradable Transistors Based on Free-Standing Sodium Alginate Membranes, Electron Device Letters, IEEE, 36(2015) 576-8. IF=3.048

  23. G. Jie, L. Jingquan, Y. Bin, Z. Guanghui, T. Longjun, T. Hongchang, X. Y. Kang, et al., Biodegradable Junctionless Transistors With Extremely Simple Structure, Electron Device Letters, IEEE, 36(2015) 908-10. IF=3.048

  24. MH Wang, BW Ji, XW Gu, HC Tian, X. Y. Kang, et al., Direct electrodeposition of Graphene enhanced conductive polymer on microelectrode for biosensing application, Biosensors and Bioelectronics 99 (2018), 99-107. IF=7.780

  25. MH Wang, K Nikaido, Y Kim, BW Ji, HC Tian, X. Y. Kang, et al., Flexible cylindrical neural probe with graphene enhanced conductive polymer, 2017 IEEE 30th International Conference on Micro Electro Mechanical Systems (MEMS).

  26. JQ Liu, HC Tian, X. Y. Kang, MH Wang, B Yang, Flexible MEMS Microelectrodes for Neural Interface, The 7th International Multidisciplinary Conference on Optofluidics 2017.

  27. C Zhang, J Liu, H Tian, X. Y. Kang, Y Rui, B Yang, H Zhu, C Yang, Control of swimming in crucian carp: stimulation of the brain using an implantable wire electrode, 2013 8th IEEE International Conference on Nano/Micro Engineered and Molecular Systems (NEMS).

      

Book

  1. 康晓洋,田鸿昌,李德昌,《微装配与MEMS仿真导论》,西安电子科技大学出版社,ISBN. 97875606248842011

  2. Liu JQ., Tian HC., Kang XY., Wang MH. (2018) Electrodes for Nerve Recording and Stimulation. In: Huang QA. (eds) Micro Electro Mechanical Systems. Micro/Nano Technologies. Springer, Singapore

      

发明专利:

  1. 刘景全,康晓洋,田鸿昌,杨春生,一种基于自应力弯曲的环状卡夫微电极的制备方法,发明专利号:201410006973.6授权日:2015.12.09

  2. 刘景全,康晓洋,田鸿昌,杨春生,反应溅射氧化铱修饰的微电极阵列及其制备方法,发明专利号:201310190253.5授权日:2015.07.08

  3. 刘景全,康晓洋,田鸿昌,杨春生,由激活循环控制电化学性质的氧化铱微电极的制备方法,发明专利号:ZL201310190510.5授权日:2015.01.21

  4. 刘景全,康晓洋,田鸿昌,杨春生,一种电极点间距可调整的微电极阵列,发明专利号:ZL201110428383.9授权日:2015.01.21

  5. 刘景全,康晓洋,田鸿昌,杨春生,电极点间距可超过微加工精度的微电极阵列及其制备方法,发明专利号:ZL201110428382.4,授权日:2014.11.19

  6. 刘景全,康晓洋,田鸿昌,杨春生,面向面瘫康复的活动假牙式柔性微电极,发明专利号:ZL201110110230.X,授权日2014.03.12

  7. 刘景全,康晓洋,田鸿昌,杨春生,不可吸收缝合线辅助植入式柔性微电极及其制备方法,发明专利号:ZL201110327128.5,授权日:2014.02.26

  8. 刘景全,康晓洋,田鸿昌,杨春生,可吸收缝合线辅助植入式柔性微电极及其制备方法,发明专利号:ZL201110327155.2,授权日:2013.12.25

  9. 刘景全,康晓洋,田鸿昌,杨春生,面向面瘫康复的角膜接触镜式柔性微电极,发明专利号:ZL201110110285.0,授权日:2013.05.01

  10. 刘景全,王涛,康晓洋,杨斌,陈翔,杨春生,六自由度微等离子体射流加工平台系统,发明专利号:ZL 201510334801.6,授权日:2017.05.10

  11. 刘景全,田鸿昌,康晓洋,何庆,杨斌,陈翔,杨春生,可植入多通道柔性微管电极及其制备方法,发明专利号:ZL201410514096.3,授权日:2017.03.15

  12. 刘景全,田鸿昌,康晓洋,何庆,杨斌,陈翔,杨春生,纺丝增强的聚对二甲苯复合薄膜及其制备方法,发明专利号:ZL201410514228.2,授权日:2016.01.13

  13. 刘景全,杜京城,田鸿昌,康晓洋,张川,杨斌,陈翔,杨春生,鱼类生物机器人的可植入式柔性神经微电极及其制备方法,发明专利号:ZL 201410293337.6,授权日:2016.09.07

  14. 刘景全,田鸿昌,康晓洋,杨斌,杨春生,氧化石墨烯/导电聚合物复合镀层及其制备方法,发明专利号:ZL201210274014.3,授权日:2016.07.06

  15. 刘景全,梅加兵,江水东,康晓洋,杨斌,杨春生,一种十二指肠套管及其制备方法,发明专利号:ZL 201210145497.7,授权日:2015.10.14

  16. 刘景全,吉博文,康晓洋,杨斌,陈翔,杨春生,一种视觉假体柔性神经微电极焊盘的制备方法,ZL201510582927.5,授权日:2017.12.15

  17. 刘景全,王明浩,康晓洋,吉博文,杨斌,陈翔,王晓林,杨春生,一种用于微电极修饰的复合材料电化学沉积制备方法,专利申请号:CN201610532122,申请日:2016.11.16

  

  


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