吉博文


的个人主页 http://teacher.nwpu.edu.cn/bwji

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基本信息 The basic information

吉博文

无人系统技术研究院

博士研究生毕业

工学博士

副教授

机械工程-微机电系统及纳米技术,电子科学与技术-微电子学与固体电子学,生物医学工程

bwji@nwpu.edu.cn

工作经历 Work Experience

2019.12-至今  西北工业大学  无人系统技术研究院  副教授,硕导

2020.08-至今 西北工业大学  机电学院  在职博士后 合作导师:常洪龙 教授

教育经历 Education Experience

2015.04-2019.12:上海交通大学 电子信息与电气工程学院  电子科学与技术 工学博士

2016.12-2018.05:Northwestern University(美国西北大学)土木与环境工程系  固体力学 联合培养博士

2012.09-2015.03:西安交通大学 机械工程学院  机械电子工程 工学硕士

2008.09-2012.07:西安交通大学 机械工程学院  机械工程及自动化 工学学士

教育教学 Education And Teaching

本科生课程:

《柔性生物电子技术》秋季 32学时 主讲

《新型视觉技术与人工智能》秋季

《智能无人系统综合设计》秋季

《智能无人系统综合设计》春季

研究生课程:

《智能传感与检测技术》秋季 40学时 主讲

《微系统技术》春季

教学竞赛与课程建设:

【1】西北工业大学2021年教师教学创新竞赛二等奖

【2】西北工业大学无人系统技术研究院2021年青年教师教学技能竞赛一等奖

【3】校级教育教学改革研究项目《智能无人系统综合设计教学改革和实践》,2021年,参与人

【4】校级高水平理论课程建设:科技前沿课程《柔性生物电子技术》,2020年,负责人

招生信息 Admission Information

人才引进

欢迎国内外脑机接口、人机交互、智能传感、柔性电子、无人系统方向优秀应届博士毕业生、博士后,加入无人系统技术研究院,共同进行学科和平台建设。

硕士招生

# “智能柔性电子无人系统”课题组(IFU-Lab),主要研究方向包括:脑机接口,可植入、可穿戴MEMS功能器件,人机交互,智能感知,柔性电子与无人系统交叉融合等,关注基础应用融合发展。

与美国西北大学、上海交通大学、JK创新研究院、清华大学、中科院神经所、大连理工大学、杭州电子科技大学、西安交通大学第二附属医院、浙江清华柔性电子研究院等国内外多家科研机构、院所保持密切合作关系。

# 招收硕士研究生若干,欢迎具有机械工程、电子科学与技术、生物医学工程、人工智能等专业背景,有想法、感兴趣、踏实肯干的优秀本科生积极联系!

# 课题组可提供充足的科研条件和良好的发展前景,支持学生国内外广泛交流学习与研究合作!

课题组宗旨为:“彼此尊重,互相学习,共同成长”。

简历请投递至:bwji@nwpu.edu.cn

  本科大学生创新创业训练(“大创计划”)

2020年已立项项目(国家级):柔性应变传感器的可拉伸结构创新与快速打印

负责导师:吉博文

2021已立项项目(国家级:超柔性脑机接口凝胶界面的粘接设计与抗炎改性

负责导师:李鹏(柔性电子研究院),吉博文

荣誉获奖 Awards Information

2021   世界机器人大赛—BCI脑控机器人大赛青年优秀论文二等奖

2020   第七届微系统与纳米工程国际会议(MINE2020)暨青年科学家论坛提名

2019   上海交通大学优秀博士学位论文提名

2019   上海市高等学校优秀毕业生

2018   上海交通大学欧姆龙奖学金

2016   国家留学基金委奖学金

2015   上海交通大学优秀博士新生奖学金

科学研究 Scientific Research

科研项目:

12021.07-2024.06,重庆市自然科学基金面上项目,cstc2021jcyj-msxmX082510万元,主持

22021.06-2022.12,中国博士后科学基金面上资助,2021M6926388万元,主持

32021.05-2024.04,上海市科委科技创新行动计划扬帆计划,21YF145100020万元,主持

42020.07-2022.06,中国博士后科学基金特别资助(站前),2020TQ024618万元,主持

52020.01-2022.12,西北工业大学青年教师科研启动经费 31020200QD01320万元,主持

62021.06-2024.06GF科技创新重点项目,205万元,参与

72020.12-2023.03,国家科技攻关计划,645万元,参与

82020.01-2023.12,国家自然科学基金面上项目3197292957万元参与

学术成果 Academic Achievements

Papers

B Ji, C Ge, Z Guo, L Wang, M Wang, Z Xie, Y Xu, H Li, C Li* and J Liu*. Flexible and stretchable opto-electric neural interface for low-noise electrocorticogram recordings and neuromodulation in vivo [J]. Biosensors and Bioelectronics, 2020, 153: 112009. (1top, IF=10.618)

B Ji#, M Wang#, C Ge, Z Xie, Z Guo, W Hong, X Gu, L Wang, Z Yi and J Liu*. Flexible bioelectrodes with enhanced wrinkle microstructures for reliable electrochemical modification and neuromodulation in vivo [J]. Biosensors and Bioelectronics, 2019, 135: 181-191. (1top, IF=10.618)

B Ji, Z Guo, M Wang, B Yang, X Wang, Wen Li and J Liu*. Flexible polyimide-based hybrid opto-electric neural interface with 16 channels of micro-LEDs and electrodes [J]. Microsystems & Nanoengineering, 2018, 4(1): 27. (1topIF=7.127)

B Ji, M Wang, X Kang, X Gu, C Li, B Yang, X Wang and J Liu*. Flexible Optoelectric Neural Interface Integrated Wire-Bonding micro-LEDs and Microelectrocorticography for Optogenetics [J]. IEEE Transactions on Electron Devices, 2017, 64(5): 2008-2015. (3, IF=2.917)

B Ji, Z Xie, W Hong, C Jiang, Z Guo, L Wang, X Wang, B Yang and J Liu*. Stretchable Parylene-C electrodes enabled by serpentine structures on arbitrary elastomers by silicone rubber adhesive [J]. Journal of Materiomics, 2020, 6(2): 330-338. (2区,IF= 6.425)

B Ji*, M Wang. Micro-wrinkle strategy for stable soft neural interface with optimized electroplated PEDOT:PSS [J]. Journal of Micromechanics and Microengineering, 2020, 30, 104001. (4区,IF=1.881)

7 B Ji#, Z Liang#, X Yuan, H Xu, M Wang, E Yin, Z Guo, L Wang, Y Zhou, H Feng, H Chang* and J Liu*. Recent advances in wireless epicortical and intracortical neuronal recording systems [J]. Science China-Information Sciences, 2022. (2IF=4.380)

8 Y Zhou, B Ji*, M Wang, K Zhang, S Huangfu, H Feng, H Chang, X Yuan*. Implantable thin film devices as brain-computer interfaces: recent advances in design and fabrication approaches [J]. Coatings, 2021, 11(2): 204.(3区,IF=2.881)

9 X Yu#, Z Xie#, Y Yu#, J Lee#, A Vazquez-Guardado, H Luan, J Ruban, X Ning, A Akhtar, D Li, B Ji, Y Liu, R Sun, J Cao, Q Huo, Y Zhong, C Lee, S Y Kim, P Gutruf, C Zhang, Y Xue, Q Guo, A Chempakasseril, P Tian, W Lu, J Y Jeong, Y J Yu, J Cornman, C S Tan, B H Kim, K H Lee, X Feng, Y Huang* and J A Rogers*. Skin-integrated wireless haptic interfaces for virtual and augmented reality [J]. Nature, 2019, 575(7783): 473-479. (IF=49.962)

10 H U Chung#, B H Kim#, J Y Lee#, J Lee#, Z Xie#, E M Ibler, K Lee, A Banks, J Y Jeong, J Kim, C Ogle, D Grande, Y Yu, H Jang, P Assem, D Ryu, J W Kwak, M Namkoong, J B Park, Y Lee, D H Kim, A Ryu, J Jeong, K You, B Ji, Z Liu, Q Huo, X Feng, Y Deng, Y Xu, K Jang, J Kim, Y Zhang, R Ghaffari, C M Rand, M Schau, A Hamvas, D E Weese-Mayer, Y Huang, S Lee, C H Lee, N R Shanbhag, A S Paller*, S Xu* and J A Rogers*. Binodal, wireless epidermal electronic systems with in-sensor analytics for neonatal intensive care [J]. Science, 2019,363(6430): eaau0780. (IF= 47.728)

11 J Koo#, M R MacEwan#, S Kang#, S M Won, M Stephen, P Gamble, Z Xie, Y Yan, Y Chen, J Shin, N Birenbaum, S Chung, S B Kim, J Khalifeh, D V Harburg, K Bean, M Paskett, J Kim, Z S Zohny, S M Lee, R Zhang, K Luo, B Ji, A Banks, H M Lee, Y Huang, W Z Ray* and J A Rogers*. Wireless bioresorbable electronic system enables sustained nonpharmacological neuroregenerative therapy [J]. Nature Medicine, 2018, 24(12): 1830. (IF= 53.440)

12 E Song#, Z Xie#, W Bai#, H Luan#B Ji, X Ning, Y Xia, J M Baek, Y Lee, R Avila, H Chen, J Kim, S Madhvapathy, K Yao, D Li, J Zhou, M Han, S M Won, X Zhang, D J Myers, Y Mei, X Guo, S Xu, J Chang*, X Yu*, Y Huang* and J A Rogers*. Miniaturized electromechanical devices for the characterization of the biomechanics of deep tissue [J]. Nature Biomedical Engineering, 2021, 5: 759–771. (IF=25.671)

13 B H Kim#, J Lee#, S M Won#, Z Xie#, F Liu, J Chang, Y Yu, Y K Cho, G Hur, H Jang, J Y Jeong, K Kim, Y Lee, A Ryu, D H Kim, J Y Lee, J Koo, S Min, X Wang, Q Huo, D Wu, B Ji, A Banks, J Kim, S Han, D Kang, C H Lee, Y M Song, Y Zhang, Y Huang, K Jang* and J A Rogers*. Three-dimensional silicon electronic systems fabricated by compressive buckling process [J]. ACS nano, 2018, 12(5): 4164-4171. (IF=15.881)

14 M Wang, B Ji, X Gu, H Tian, X Kang, B Yang, X Wang, X Chen, C Li and J Liu*. Direct electrodeposition of Graphene enhanced conductive polymer on microelectrode for biosensing application [J]. Biosensors and Bioelectronics, 2017, 99:99-107. (IF=10.618)

15 M Wang, B Ji, X Gu, Z Guo, X Wang, B Yang, C Li and J Liu*. A novel assembly method for 3-dimensional microelectrode array with micro-drive [J]. Sensors and actuators B: Chemical, 2018, 264: 100-109. (IF=7.460)

16 Z Guo, B Ji, M Wang, X Wang, B Yang and J Liu*. A polyimide based 3D ultrathin bioelectrode with elastic sites for neural recording [J]. Journal of Microelectromechanical Systems, 2018, 27(6): 1035-1040. (IF=2.417)

17 Z Guo, B Ji, M Wang, C Ge, L Wang, X Gu, B Yang X Wang, C Li and J Liu*. A polyimide based flexible optoelectrodes for low-noise neural recording [J]. IEEE Electron Device Letters, 2019, 40(7): 1190-1193. (IF=4.187)

18 Y Xi, B Ji, Z Guo, W Li* and J Liu*. Fabrication and Characterization of Micro-nano Electrodes for Implantable BCI [J]. Micromachines, 2019, 10(4), 242. (IF=2.891)

19 Z Xie*, B Ji, Q Huo. Mechanics Design of Stretchable Near Field Communication Antenna With Serpentine Wires [J]. Journal of Applied Mechanics, 2018, 85(4): 045001. (IF=2.168)

20 B Bao, B Ji, M Wang, K Gao, B Yang, X Chen, X Wang and J Liu*. Development and characterization of electroplating silver/silver chloride modified microelectrode arrays [J]. Micro & Nano Letters, 2019, 14(3): 299-303. (IF=1.102)

21 M Wang, B Guo, B Ji, Y Fan, L Wang, L Ye, Y Chen*, Y Cheng*, L Dong and G Wang*. Controlled Electrodeposition of Graphene Oxide doped Conductive polymer on Microelectrodes for Low-Noise Optogenetics [J]. IEEE Electron Device Letters, 2021. (IF=4.187)

22 M Wang, X Gu, B Ji, L Wang, Z Guo, B Yang, X Wang, C Li and J Liu*. Three-dimensional drivable optrode array for high-resolution neural stimulations and recordings in multiple brain regions [J]. Biosensors and Bioelectronics, 2019, 131: 9-16. (IF=10.618)

23 Z Yi, Y Hu, B Ji, J Liu and B Yang*. Broad bandwidth piezoelectric energy harvester by a flexible buckled bridge [J]. Applied Physics Letters, 2018, 113(18), 183901. (IF=3.791)

24 Y Zhang, S Le, H Li, B Ji, M Wang, J Tao, J Liang, X Zhang and X Kang*. MRI Magnetic Compatible Electrical Neural Interface: from Materials to Application[J]. Biosensors and Bioelectronics, 2021, 194: 113592. (IF=10.618)

25 L Chen, J Liu*, X Wang, B Ji, X Chen and B Yang. Flexible Capacitive Hydrogel Tactile Sensor With Adjustable Measurement Range Using Liquid Crystal and Carbon Nanotubes Composites [J]. IEEE Transactions on Electron Devices, 2017, 64(5): 1968-1972. (IF=2.917)

26 L Wang, M Wang, C Ge, B Ji, Z Guo, X Wang, B Yang, C Li and J Liu*. The use of a double-layer platinum black- conducting polymer coating for improvement of neural recording and mitigation of photoelectric artifact [J]. Biosensors and Bioelectronics, 2019, 145: 111661. (IF=10.618)

27 L Wang, C Ge, M Wang, B Ji, Z Guo, X Wang, B Yang, C Li and J Liu*. An artefact-resist optrode with internal shielding structure for low-noise neural modulation [J]. Journal of Neural Engineering, 2020, 17(4): 046024. (IF=5.379)

28 W Hong, L Tang, W Sun, B Ji, B Yang and J Liu*. A Super Anisotropic Wetting Microstructure Based on Combination of Sharp Edge and Sharp Corner [J]. Journal of Microelectromechanical Systems, 2019, 28(6), 1055-1059. (IF=2.417)

29 H Tian, J Liu*, X Kang, L Tang, M Wang, B Ji, B Yang, X Wang, X Chen and C Yang. Enhanced Flexible Tubular Microelectrode with Conducting Polymer for Multi-Functional Implantable Tissue-Machine Interface [J]. Scientific Reports, 2016, 6:26910. (IF=4.379)

30 I Jung#, Z Xie#, Q Huo, J Kim, J Lee, B Ji, S Xu*. In Vitro Protocol for Validating Interface Pressure Devices for Therapeutic Compression Garments: Importance of Sphygmomanometer Placement and Initial Cuff Diameter [J]. Veins and Lymphatics, 2018, 7(1). (IF=1.513)

31 J Yi#, B Pang#, H Liu*, F Wang, B Ji and M Jing. Influence of misalignment on nonlinear dynamic characteristics for matched bearings-rotor system [J]. Proceedings of the Institution of Mechanical Engineers, Part K: Journal of Multi-body Dynamics, 2014, 228(2): 172-181. (IF=1.713)

32 F Wang, M Jing, J Yi, G Dong, H Liu* and B Ji. Dynamic modelling for vibration analysis of a cylindrical roller bearing due to localized defects on raceways [J]. Proceedings of the Institution of Mechanical Engineers Part K: Journal of Multi-body Dynamics, 2015, 229:39-64. (IF=1.713)

33 B Guo, Y Fan, M Wang*, Y Cheng, B Ji, Y Chen and G Wang*. Flexible Neural Probes with Electrochemical Modified Microelectrodes for Artifact-Free Optogenetic Applications[J]. International Journal of Molecular Sciences, 2021, 22(21): 11528. (IF= 5.923)

34 M Jiao, M Wang*, Y Fan, B Guo, B Ji, Y Cheng* and G Wang*. Temperature Compensated Wide-Range Micro Pressure Sensor with Polyimide Anticorrosive Coating for Harsh Environment Applications[J]. Applied Sciences, 2021, 11(19): 9012. (IF=2.679)

35 L Wang, C Ge, F Wang, Z Guo, W Hong, C Jiang, B Ji, M Wang, C Li, B Sun and J Liu*. Dense packed drivable optrode array for precise optical stimulation and neural recording in multiple brain regions [J]. ACS Sensors, 2021, 6, 11, 4126-4135. (IF=7.711)


Conferences

1 B Ji, X Kang, M Wang, B Bao, H Tian, B Yang, X Chen, X Wang and J Liu*. Photoelectric neural interface combining wire-bonding μleds with iridium oxide microelectrodes for optogenetics [C]. Micro Electro Mechanical Systems (MEMS), IEEE 30th International Conference on. IEEE, 2017: 538-541.

2 B Ji, M Wang, Z Guo, W Hong, L Wang, X Wang, B Yang, W Wang and J Liu*. Wrinkled microelectrode interface based on oil-pretreated hyperelastic substrate [C]. Micro Electro Mechanical Systems (MEMS), IEEE 32th International Conference on. IEEE, 2019: 561-564.

B Ji, C Lin, M Wang, Z Guo, Y Zhou, S Huangfu, K Zhang, H Feng, H Chang and J Liu*. Thermal strain-induced self-rolling mesh cuff electrodes for non-linear peripheral nerve [C]. Micro Electro Mechanical Systems (MEMS), IEEE 34th International Conference on. IEEE, 2021: 567-570.

B Ji, Y Zhou, Z Guo, K Zhang, M Wang, K Tao, H Feng, H Chang, J Liu*. Reliable connection between stretchable electrodes on PDMS and flexible flat cable by introducing thermal release tape [C]. 21st International Conference on Solid-State Sensors, Actuators and Microsystems, 2021: 1408-1411.

5 Z Guo, B Ji, L Wang, B Yang, W Wang and J Liu*. A Flexible and Stretchable Kirigami-Inspired Implantable Neural Probe with Floating Microsites for Electrophysiology Recordings [C]. Micro Electro Mechanical Systems (MEMS), IEEE 33th International Conference on. IEEE, 2020: 350-353.

6 Z Guo, B Ji, M Wang, X Wang, B Yang, W Wang and J Liu*. A Flexible Transducer for Multifunctional Physiological Detection in Neural Science [C]. 20th International Conference on Solid-State Sensors, Actuators and Microsystems & Eurosensors XXXIII (TRANSDUCERS & EUROSENSORS XXXIII), 2019: 2468-2471.

7 Z Guo, L Wang, B Ji, Y Xi, B Yang and J Liu*. Flexible, multi-shank stacked array for high-density ominidirectional intracortical recording [C]. Micro Electro Mechanical Systems (MEMS), IEEE 34th International Conference on. IEEE, 2021: 540-543.

8 W Hong, L Tang, B Ji, W Sun, B Yang, X Wang and J Liu*. A Novel SESC Microstructure to Realize Various Spontaneously Liquid Spreading Properties [C]. Micro Electro Mechanical Systems (MEMS), IEEE 32th International Conference on. IEEE, 2019: 400-403.

9 M Wang, K Nikaido, Y Kim, B Ji, H Tian, X Kang, C Yang, B Yang, X Chen, X Wang, Y Zhang and J Liu*. Flexible cylindrical neural probe with graphene enhanced conductive polymer for multi-mode BCI applications [C]. Micro Electro Mechanical Systems (MEMS), IEEE 30th International Conference on. IEEE, 2017: 502-505.

10 H Tian, J Liu*, X Kang, M Wang, B Ji, B Yang, X Chen, X Wang and C Yang. Implantable multi-functional flexible microelectrode combining electrical and chemical interface [C]. Micro Electro Mechanical Systems (MEMS), IEEE 29th International Conference on. IEEE, 2016: 387-390.

11 L Wang, Z Guo, Y Xi, M Wang, B Ji, H Tian, X Kang and J Liu*. Flexible, multi-shank stacked array for high-density ominidirectional intracortical recording [C]. Micro Electro Mechanical Systems (MEMS), IEEE 34th International Conference on. IEEE, 2021: 250-255.

12 L Wang, Z Guo, B Ji, Y Xi, B Yang and J Liu*. A silicon recording probe with integrated Ag/AgCl reference electrode for in-situ PH sensing [C]. 21st International Conference on Solid-State Sensors, Actuators and Microsystems, 2021: 1412-1415.

13 L Wang, Z Guo, B Ji, Y Xi, B Yang and J Liu*. A High-Density Drivable Microelectrodes Array for Multi-Brain Recording [C]. 21st International Conference on Solid-State Sensors, Actuators and Microsystems, 2021: 679-682.

14 H Huang, Z Zhao, K Tao*, J Wu, B Ji, W Yuan and H Chang. Intersecting book inspired high-power-density electret/triboelectric multilayered power generator with flexible interdigital electrode [C]. 21st International Conference on Solid-State Sensors, Actuators and Microsystems, 2021: 937-939.

15 R He, K Tao*, Z Chen, B Ji, Q Shen, D Qiao, W Yuan and H Chang. An invisible bionic dragonfly based on fully-transparent conductive hydrogel and dielectric elastomer [C]. 21st International Conference on Solid-State Sensors, Actuators and Microsystems, 2021: 932-935.

16 J Yu, Z Chen, H Zeng, B Ji, Z Wu, J Wu, Y Li, J Xie, H Chang and K Tao*. Ultra-flexible and highly transparent hydrogel-based triboelectric nanogenerator for physiological signal monitoring [C]. IEEE NEMS, 2021: 1903-1907.

17 Y Cao, D Nie, J Zhang, Y Wang, R He, Z Zhao, B Ji, J Xie and K Tao*. Investigation of electrostatic-piezoelectric hybrid vibrational power generators with different frequency broadening schemes [C]. IEEE NEMS, 2021: 528-532.


Patents:

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 专利号:ZL 2015 1 0582927.5 授权公告日:2017.12.15. (已授权)

刘景全,吉博文,康晓洋,王明浩,杨斌,陈翔,杨春生一种基于金丝球焊法的光刺激神经电极器件及其制备方法 专利号:ZL 2015 1 1004826.6 授权公告日:2018.04.17. (已授权)

刘景全,吉博文,康晓洋,王明浩,杨斌,陈翔,王晓林,杨春生LED光刺激和电记录集成的柔性神经电极器件及其制备方法 专利号:ZL 2016 1 0523059.8 授权公告日:2019.05.24. (已授权)

刘景全,吉博文,王明浩,郭哲俊,包步峰,杨斌,陈翔,王晓林,杨春生,一种柔性软排线和聚对二甲苯柔性电极的热压连接方法 专利号:ZL 2016 1 1132350.9. 授权公告日:2019.11.01. (已授权)

刘景全,吉博文,康晓洋,王明浩,杨斌,陈翔,王晓林,杨春生,大鼠腿部肌肉电刺激和肌电信号采集柔性器件及制备方法 专利号:ZL 2016 1 0634986.7. 授权公告日:2020.05.08. (已授权)

刘景全,吉博文,郭哲俊,王隆春,一种具有蛇形金属屏蔽结构的记录电极及制备工艺 专利号:ZL 2019 1 0560590.6 授权公告日:2020.09.08. (已授权)

刘景全,吉博文,郭哲俊,王隆春,一种光电集成可拉伸柔性神经电极及制备方法 专利号:ZL 2019 1 0560592.5. 授权公告日:2020.10.30. (已授权)

刘景全,吉博文,郭哲俊,王隆春,一种三维屈曲结构柔性神经电极及其制备工艺 专利号:ZL 2019 1 0561090.4 授权公告日:2021.02.19. (已授权)

刘景全,包步峰,吉博文,杨斌,陈翔,王晓林,一种人工耳蜗电极及其制备方法 专利号:ZL 2017 1 0869123.2. 授权公告日:2019.10.29. (已授权)

10 刘景全,郭哲俊,吉博文,王隆春,洪雯,奚野,一种植入式高密度电极点柔性探针电极及制备方法 专利号:ZL 2019 1 0537043.6. 授权公告日:2020.10.02. (已授权)

11 刘景全,郭哲俊,吉博文,王隆春,奚野,用于生物植入的柔性可拉伸神经探针以及其制备方法 专利公开号:CN 111053535 A. 专利公开日:2020.04.29.

12 刘景全,王隆春,郭哲俊,吉博文,奚野,集成内部金属屏蔽层的光电神经探针及其制备方法 专利号:ZL 2019 1 1357618.2. 授权公告日:2021.06.29. (已授权)

13 吉博文,冯慧成,常洪龙,一种基于自膨胀水凝胶的三维柔性神经微电极及制备方法,专利公开号:CN 111657937 A,专利公开日:2020.09.15.

14 吉博文,冯慧成,常洪龙,一种基于酢浆草仿生结构的柔性神经微电极及制备方法,专利公开号:CN 111743537 A,专利公开日:2020.10.09.

15 吉博文,皇甫帅祺,常洪龙,冯慧成,周宇昊,张凯,一种植入式可延展多模式记录与光刺激脑机接口器件,专利公开号:CN112450939A,专利公开日:2021.03.09.

16 吉博文,张凯,周宇昊,冯慧成,皇甫帅祺,常洪龙,一种应力诱发的自卷曲网状卡夫神经电极及其制备方法,专利公开号:CN112472096A,专利公开日:2021.03.12.

17 吉博文,周宇昊,常洪龙,冯慧成,张凯,熊俊彦,一种基于含流体通道弹性印章的可延展柔性电极转移方法,专利公开号:CN112971789A,专利公开日:2021.6.18.

18 吉博文,周宇昊,常洪龙,冯慧成,熊俊彦,张凯,陶凯,一种热剥离辅助可延展柔性神经电极接口集成工艺,专利公开号:CN112993716A专利公开日:2021.6.18.

19 吉博文,张凯,常洪龙,冯慧成,周宇昊,梁泽凯,一种半膨胀微球囊表面集成可延展刺激电极方法,专利公开号:CN113470896A,专利公开日:2021.10.01.

20 冯慧成,申海龙,周晨阳,吉博文,常洪龙,一种高性能单细胞电阻抗检测微电极及制备方法,专利公开号:CN113804735A,专利公开日:2021.12.17.

21 吉博文,周宇昊,熊俊彦,冯慧成,常洪龙,张凯,梁泽凯,一种软性神经探针的单面硬化涂层制备方法,专利公开号:CN113663141A,专利公开日:2021.11.19.

22 吉博文,阿凘荣,王慕尧,胡志杰,曹馨月,梁泽凯,冯慧成,一种多材料剪纸结构可延展应变传感器及其制备方法,已提交.

23 吉博文,周宇昊,常洪龙,冯慧成,张凯,梁泽凯,尤小丽,一种基于混合硅胶的软性神经探针及其制备方法,已提交.

24 吉博文,张凯,冯慧成,常洪龙,梁泽凯,周宇昊,阿凘荣,王慕尧,一种基于超薄粘性硅胶的可延展电极平整集成及拉伸方法,已提交.

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