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基本信息 The basic information
姓名: 吉博文

学院: 无人系统技术研究院


学历: 博士研究生毕业

学位: 工学博士


职称: 副教授

职务:


学科: 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


邮箱: 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
教改与课程建设：
【1】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
【2】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
项目成员：教育实验学院 本科生4人
2021年立项项目：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
项目成员：教育实验学院、电信学院 本科生5人



荣誉获奖 Awards Information
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：
【1】2020.07-2022.06 ，中国博士后科学基金特别资助（站前），2020TQ0246，18万元，主持
【2】2021.05-2024.04，上海市科委“科技创新行动计划”扬帆计划， 21YF**，20万元，主持
【3】2021.06-2022.12，中国博士后科学基金面上资助，2021M692638，8万元，主持
【4】2020.01-2022.12 ，西北工业大学青年教师科研启动经费，**QD013，20万元，主持
【5】2020.12-2023.03，国家科技攻关计划（微纳芯片技术），645万元，参与
【6】2020.01-2023.12，国家自然科学基金面上项目，**，57万元，参与



学术成果 Academic Achievements
Papers：
1B 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. (1区top, IF=10.257)
2B 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. (1区top, IF=10.257)
3B 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. (1区top，IF=5.048)
4B 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区, IF=2.913)
5B 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= 5.797)
6B Ji*, M Wang.Micro-wrinkle strategy for stable soft neural interfacewith optimized electroplated PEDOT:PSS [J].Journal of Micromechanics and Microengineering, 2020, 30, 104001. (3区，IF=2.141)
7 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=2.436)
8X 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=42.778)
9 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= 41.845)
10 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= 36.130)
11 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: 1-13. (IF=18.952)
12 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=14.588)
13 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]. BiosensorsandBioelectronics, 2017, 99:99-107. (IF=10.257)
14 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=7.100)
15 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=2.534)
16 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=4.221)
17 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=2.523)
18 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=2.671)
19 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=0.975)
20 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=4.221)
21 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]. BiosensorsandBioelectronics, 2019, 131: 9-16. (IF=10.257)
22 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=3.597)
23 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=2.913)
24 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]. BiosensorsandBioelectronics, 2019, 145: 111661. (IF=10.257)
25 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=4.141)
26 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=2.534)
27 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=3.998)
28 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)
29 J Yi^#, B Pang^#, H Liu*, F Wang,B Ji, 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=1.533)
30 F Wang, M Jing, J Yi, G Dong, H Liu*,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=1.533)



Conferences：
1B 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.
2B Ji, M Wang, Z Guo, W Hong, L Wang, X Wang, B Yang, W Wang and J Liu*. Wrinkled microelectrode interfaces based on oil-pretreated hyperelastic substrate [C]. Micro Electro Mechanical Systems (MEMS), IEEE 32th International Conference on. IEEE, 2019: 561-564.
3B 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.
4B 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.
7Z 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.
11L 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.
12L 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.
14H 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.
15R 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.
17Y 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.
Patents:
1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 **.5授权公告日：2017.12.15. (已授权)
2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 **.6授权公告日：2018.04.17. (已授权)
3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 **.8授权公告日：2019.05.24. (已授权)
4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 **.9.授权公告日：2019.11.01. (已授权)
5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 **.7.授权公告日：2020.05.08.(已授权)
6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 **.6授权公告日：2020.09.08. (已授权)
7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其制备方法专利公开号：ZL 2019 1 **.5.授权公告日：2020.10.30. (已授权)
8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方法专利号：ZL 2019 1 **.4授权公告日：2021.02.19. (已授权)
9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 **.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 **.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 A.专利公开日：2020.04.29.
12刘景全，王隆春，郭哲俊，吉博文，奚野.一种集成内部金属屏蔽层的低噪声光电神经探针及其制备方法专利公开号：CN A.专利公开日：2020.05.18. (已通知授权)
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 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 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：CNA，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：CNA，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：CNA，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：CNA，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，已提交.
20冯慧成，申海龙，周晨阳，吉博文，常洪龙. 一种高性能的单细胞电阻抗检测微电极设计，已提交.



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