李建平，博士，中共党员，副教授、硕士生导师，浙江省高校领军人才培养计划青年优秀人才，金华市青年拔尖人才，日本学术振兴会（JSPS）外国人特别研究员，中国机械工业教育协会高等工程教育第四届机械电子工程专业教学委员会委员，中国仪器仪表学会微纳器件与系统技术分会理事，江苏省康复医学专科联盟理事及智能医工与产研促进分会常务委员。吉林大学机械制造及其自动化专业博士，日本国立千叶大学客座研究员。中国仪器仪表学会高级会员、中国机械工程学会会员，中国生物医学工程学会会员，国际仿生工程学会会员，日本血栓止血学会会员，美国电气与电子工程师学会（IEEE）会员。中文期刊“现代医学与健康”、“大医生”编委，英文期刊“Sensors”、“Frontiers in Mechanical Engineering”特邀编辑、“Frontiers in Sensors”评审编辑，同时担任“Advanced Materials”、“Biosensors and Bioelectronics”、“IEEE Transactions on Industrial Electronics”、"Sensors and Actuators A: Physics"等国际高影响力期刊评审专家。

长期从事压电超精密驱动理论与关键技术应用、生物电阻抗测量及其医学应用、微纳能源收集等相关领域的研究工作，尤其在压电超精密驱动技术在半导体光刻、航空航天、智能制造等行业应用，以及基于生物电阻抗方法的血栓、肿瘤早期快速检测方面有深入研究。截至目前，累计发表各类学术论文110余篇（TOP论文多篇，ESI高被引论文2篇），学术论著3部、章节6章，授权国际专利1项（美国），授权中国发明专利46项；参与制定行业标准2项；国际学术会议口头汇报20余次，其中作为分会主席、受邀演讲10余次。

主持国家自然科学基金1项、日本学术振兴会（JSPS）外国人特别研究员基金1项、浙江省自然科学基金面上项目1项、浙江省自然科学基金学术交流项目1项；参与国家自然基金及重大课题数项（含国家重大科学仪器设备开发专项“材料微观力学性能原位测试仪器研制与应用”等）。2016年获日本学术振兴会（JSPS）外国人特别研究员（全球约200人/年）；2017年获得教育部技术发明一等奖、吉林省优秀博士论文；2023年获机械工业技术发明一等奖。

与日本国立千叶大学、东京大学、吉林大学、南京航空航天大学、南京理工大学等多家国内外研究机构保持深入合作交流。欢迎对压电驱动与传感、生物电阻抗测量与医学应用、微纳能源收集领域研究感兴趣的本科生、硕士生、博士生以及博士后人员加入研究团队。

研究方向

•  压电超精密驱动理论与关键技术应用（仿生驱动、寄生驱动等）、生物电阻抗检测及其医学应用研究（细胞机-电特性同步测试）、微纳能源收集（摩擦纳米发电、压电发电）

  
  

代表性科研项目

      [1]  2022.01.01-2024.12.31，52105564，压电/介电复合驱控的肿瘤细胞机-电特性同步测试研究，国家自然科学基金青年项目，国家自然基金委员会，在研，主持。

[2]    2020.01.01-2020.12.31，S20E050003，微纳传感与检测技术及其在前沿领域中的应用研讨会，浙江省自然基金委学术交流项目，浙江省自然基金委员会，在研，主持。

      [3]  2019.01.01-2021.12.31，LY19E050010，基于宽频介电谱的血流内微小血栓检测机理及微观耦合特性研究，浙江省自然基金面上项目，浙江省自然基金委员会，在研，主持。

[4]   2016.07.01-2018.06.30，16H02312，微流道内血液微小血栓监测方法研究，日本学术振兴会基础研究，日本学术振兴会，已结题，主要参与人。

[5]    2012.10.01-2016.9.30，2012YQ030075，材料微观力学性能原位测试仪器研制与应用，国家重大科学仪器设备开发专项，国家科技部，已结题，主要参与人。        

代表性论著

 [1] Jianping Li, Cancan Wei, Youjia Chen, Zhigang Jin, Nen Wan, Jianming Wen, Jijie Ma, Yili Hu. Quantitative evaluation method of triboelectric nano-electroporation based on electrical impedance spectroscopy, Nano Energy, 2024, 124:109514.

 [2] Jianping Li, Shichu Chen, Lidong He, Jiwen Jian, Yili Hu, Jianming Wen, Song Chen, Junwu Kan. A Bionic Type Piezoelectric Actuator Based on Walking Motion and Asymmetrical L-Shaped Flexure Mechanisms[J]. IEEE/ASME Transactions on Mechatronics, 2023, 28(3), 1326-1336. 

 [3] Jianping Li, Nen Wan*,Jianming Wen, Guangming Cheng, Lidong He, Li Cheng. Quantitative detection and evaluation of thrombus formation based on electrical impedance spectroscopy. Biosensors & Bioelectronics, 2019, 141, 111437.

 [4]  Jianping Li, Achyut Sapkota*, Daisuke Kikuchi, Daisuke Sakota, Osamu Maruyama, MasahiroTakei. Red Blood Cells Aggregability Measurement of Coagulating Blood in Extracorporeal Circulation System with Multiple-frequency Electrical Impedance Spectroscopy. Biosensors & Bioelectronics, 2018, 112, pp.79-85. 

 [5]  Jianping Li, Kikuchi D, Sapkota A*, Masahiro Takei. Quantitative evaluation of electrical parameters influenced by blood flow rate with multiple-frequency measurement based on modified Hanai mixture formula. Sensors & Actuators B：Chemical, 2018, 268, pp.7-14. 

 [6] Jianping Li, Hu Huang, and Hongwei Zhao*. A piezoelectric-driven linear actuator by means of coupling motion, IEEE Transactions on Industrial Electronics, 2018, 65(3), 2458-2466.  

 [7] Jianping Li, Xiaoqin Zhou, Hongwei Zhao*, Mingkun Shao, Ning Li, Shizhong Zhang, Yumeng Du. Development of a Novel Parasitic-Type Piezoelectric Actuator, IEEE/ASME Transactions on       Mechatronics, 2017, 22 (1), pp. 541-550.    

 [8]  Yunye Gao, Jianming Wen*, Jijie Ma, Yu Zhang, RenmingWang, Yili Hu, Jianping Li*. A self-adapting linear inchworm piezoelectric actuator based on a permanent magnets clamping structure. Mechanical Systems and Signal Processing, 2019, 132, 429-440.

2020年

1. Jianping Li, Shichu Chen, Gai Zhao, Jianming Wen, Nen Wan. A linear piezoelectric actuator with the parasitic motion of equilateral triangle flexure mechanism, Smart Materials and Structures, 2020, 29(1): 015015. 

2. Jianping Li, Junjie Cai, Jianming Wen, Yu Zhang, Nen Wan. A parasitic type piezoelectric actuator with the asymmetrical trapezoid flexure mechanism, Sensors and Actuators A: Physical, 2020: 111907. 

3. Jiafeng Yao, Li Wang, Kai Liu, Hongtao Wu, Hao Wang, Jingshi Huang, Jianping Li*. Evaluation of electrical characteristics of biological tissue with electrical impedance spectroscopy. Electrophoresis, 2020, 00:1-8.  

4. Jianming Wen, Dezhu Shen, Renming Wang, Jianping Li and Jijie Ma. A two-fixed-end beam piezoelectric inertial actuator using electromagnet controlled MRF for friction regulation. Smart Materials and Structures, 2020, 29, 065011.

5. Dezhu Shen, Jianming Wen, Jijie Ma, Yili Hu, Renming Wang, Jianping Li. A Novel Linear Inertial Piezoelectric Actuator Based on Asymmetric Clamping Materials. Sensors and Actuators A Physical, 2019, 303:111746. 

6.  李建平, 高云叶, 温建明*, 马继杰, 王仁明. 基于旋转磁铁箝位的压电尺蠖驱动器理论与试验分析, 中国机械工程，2020, 31(17)：2059-2063,2070.

7.  Huaijin Chen, Jiafeng Yao*, Lu Yang, Kai Liu, Bai Chen, Jianping Li*, Masahiro Takei. Development of a Portable Electrical Impedance Tomography Device for Online Thrombus Detection in Extracorporeal-circulation Equipment. IEEE Sensors Journal, 2020, 1-1. 

8.  Mengru Ding, Jijie Ma, Yili Hu, Jianping Li, Jianming Wen. An inertial piezoelectric rotary actuator characterized by the motion without rollback, Smart Materials and Structures, 2020, 29(9):095015. 

9. Yili Hu, Shengrong Lin, Jijie Ma, Yu Zhang, Jianping Li, Jianming Wen*. Piezoelectric inertial rotary actuator operating in two-step motion mode for eliminating backward motion. Applied Physics Letters, 2020, 117(3):031902. 

10. Renming Wang, Yili Hu, Dezhu Shen, Jijie Ma, Jianping Li, Jianming Wen. A Novel Piezoelectric Inchworm Actuator Driven by One Channel DC Signal, IEEE Transactions on Industrial Electronics, 2020, 68(3): 2015-2023. 

2019 年

1. Jianming Wen,Nen Wan,Huilu Bao and Jianping Li, Quantitative Measurement and Evaluation of Red Blood Cell Aggregation in Normal Blood Based on a Modified Hanai Equation, Sensors, 2019, 19(5), 1095. 

2. Jianming Wen, Nen Wan, Renming Wang, Song Chen, Jiajia Zheng, Jianping Li. A Novel Linear Walking Type Piezoelectric Actuator Based on the Parasitic Motion of Flexure Mechanisms. IEEE Access, 2019, 7, 25908 – 25914. 

3. Jianping Li, Hu Huang, Takeshi Morita. Stepping piezoelectric actuators with large working stroke for nano-positioning systems: A review, Sensors and Actuators A: Physical, 292(2019) 39-51. 

4.  Song Chen, Mai Yu, Junwu Kan, Jianping Li, Zhonghua Zhang, Xinyi Xie and Xiaomin Wang. A Dual-Chamber Serial–Parallel Piezoelectric Pump with an Integrated Sensor for Flow Rate Measurement, Sensors, 2019, 19(6), 1447. 

5. Renming Wang, Yili Hu, Dezhu Shen, Jijie Ma, Jianming Wen, Jianping Li. Design and Experimental Performance of a Novel Piezoelectric Inertial Actuator for Magnetorheological Fluid Control Using Permanent Magnet, IEEE Access, 2019, 7, 43573 - 43580. 

6. Jiajian Ji , Song chen, Xinyi Xie, Xiaoming Wang, Junwu Kan, Zhonghua Zhang, Jianping Li. Design and Experimental Verification on Characteristics of Valve-lessPiezoelectric Pump Effected by Valve Hole Spacing, IEEE Access, 2019, 7(1), 36259-36265.

7. Jiru Wang, Jianping Li, Zhi Xu, Shunbo Wang, Zhaoxin Wang, Bowen Xu, Yifan Sun, Sihan Liu, Hongwei Zhao. Design, analysis, experiments and kinetic model of a high step efficiency piezoelectric actuator. Mechatronics, 2019, 59: 61-68. 

8.  Jianping Li, Nen Wan,Jianming Wen, Guangming Cheng, Lidong He, Li Cheng. Quantitative detection and evaluation of thrombus formation based on electrical impedance spectroscopy. Biosensors & Bioelectronics, 2019, 141, 111437. 

9. Song Chen, Xinyi Xie, Junwu Kan, Jiajian Ji, Zhonghua Zhang, Jianping Li. A Hydraulic-driven Piezoelectric Pump with Separable Channel for Drug Delivery. Sensors and Actuators A: Physical, 2019, 295, 210-216.

10. Yunye Gao, Jianming Wen, Jijie Ma, Yu Zhang, RenmingWang, Yili Hu, Jianping Li*. A self-adapting linear inchworm piezoelectric actuator based on a permanent magnets clamping structure. Mechanical Systems and Signal Processing, 2019, 132, 429-440. 

11. Jiafeng Yao, Huaijin Chen, Zifei Xu, Jingshi Huang, Jianping Li, Jiabin Jia, Hongtao Wu. Development of a Wearable Electrical Impedance Tomographic Sensor for Gesture Recognition with Machine Learning，IEEE Journal of Biomedical and Health Informatics, 2019, 1-1. 

12. Jiafeng Yao, Jingshi Huang, Yijia Zhang, Jianping Li, Tong Zhao, Hongtao Wu. Effect of an Anti-Mixing Cover on the Back-Flow in the Separation Chamber of a Cyclone Separator. IEEE Access, 2019, 7, 108504-108512. 

13. Nen Wan, Jianming Wen, Yili Hu, Junwu Kan, Jianping Li. A parasitic type piezoelectric actuator with an asymmetrical flexure hinge mechanism. Microsystem Technologies, 2019,1-8. 

14.  En Zhang, Yili Hu, Huilu Bao, Jianping Li, Jijie Ma, Jianming Wen. A linear inertial piezoelectric actuator using a single bimorph vibrator. Smart Materials and Structures, 2019, 28(11): 115020. 

15. Jiafeng Yao, Junjie Cai, Yili Hu, Jianming Wen, Nen Wan, Hao Wang, Jianping Li. An Umbrella-shaped Linear Piezoelectric Actuator based on Stick-slip Motion Principle. IEEE Access, 2019, 7(1):157724-157729. 

16.  温建明*, 鲍慧璐, 沈德助, 马继杰, 文科权, 李建平.磁流变液控制式惯性压电旋转驱动器[J]. 光学精密工程, 2019, 27(10):2192-2198.

2018年

1. Jianping Li, Achyut Sapkota, Daisuke Kikuchi, Daisuke Sakota, Osamu Maruyama, MasahiroTakei. Red Blood Cells Aggregability Measurement of Coagulating Blood in Extracorporeal Circulation System with Multiple-frequency Electrical Impedance Spectroscopy. Biosensors & Bioelectronics, 2018, 112, pp.79-85. 

2. Jianping Li, Kikuchi D, Sapkota A, Masahiro Takei. Quantitative evaluation of electrical parameters influenced by blood flow rate with multiple-frequency measurement based on modified Hanai mixture formula. Sensors & Actuators B：Chemical, 2018, 268, pp.7-14. 

3. Jianping Li, Hu Huang, and Hongwei Zhao. A piezoelectric-driven linear actuator by means of coupling motion, IEEE Transactions on Industrial Electronics, 2018, 65(3), 2458-2466. 

2017年

1. Jianping Li, Hui Liu, and Hongwei Zhao. A compact 2-DOF piezoelectric-driven platform based on “Z-shaped” flexure hinges, Micromachines , 2017, 8(8), 245. 

2. Jianping Li, Xiaoqin Zhou, Hongwei Zhao, Mingkun Shao, Ning Li, Shizhong Zhang, Yumeng Du. Development of a Novel Parasitic-Type Piezoelectric Actuator, IEEE/ASME Transactions on Mechatronics, 2017, 22 (1), pp. 541-550. 

3. Ning Li, Hongwei Zhao, Mingjun Jin, Jianping Li, Xiaohang Dai, Zhanwei Huo, Shunbo Wang, Liguo Yang, Xingdong Sun. Influence of scratch type on tensile strength in in situ tensile test. Advances in Mechanical Engineering, 2017, 9(6), 1687814017707130. 

2016年

1. Jianping Li, Hongwei Zhao, Xiaoli Hu, Lin Zhang, Pengliang Hou, Cong Li, Ning Li, Yuexi Zhong and Changyi Liu. A compact bending device for in-situ three-point bending tests under laser scanning confocal microscope, Instruments and Experimental Techniques, 2016, 59(5), pp. 762-767. 

2. Hu Huang, Jianping Li, Hongwei Zhao, Chengli Shi. On the correlation between the structure and one stepping characteristic of a piezo‑driven rotary actuator, Microsystem Technologies, 2016, 22(12): 2821-2827.

3. Pengliang Hou, Hongwei Zhao, Zhichao Ma, Shizhong Zhang, Jianping Li, Xiaolong Dong, Yujiao Sun, Zhongwei Zhu. Influence of punch radius on elastic modulus of three-point bending tests, Advances in Mechanical Engineering, 2016, 8 (5), 1687814016649116. 

2015年

1. Jianping Li, Xiaoqin Zhou, Hongwei Zhao, Mingkun Shao, Pengliang Hou, Xiuquan Xu. Design and Experimental Performances of a Piezoelectric Linear Actuator by Means of Lateral Motion. Smart Materials and Structures, Volume 24, 2015, 065007, 5pp.

2. Jianping Li, Hongwei Zhao, Xingtian Qu, Han Qu, Xiaoqin Zhou, Hu Huang, Zunqiang Fan. Development of a Compact 2-DOF Precision Piezoelectric Positioning platform based on inchworm principle. Sensors and Actuators A: Physical, Volume 222, 2015, pp. 87–95.

3. Jianping Li, Hongwei Zhao, Mingkun Shao, Xiaoqin Zhou, Zunqiang Fan. Design and experimental research of an improved stick-slip type piezo-driven linear actuator, Advances in Mechanical Engineering, 2015, 7(9), pp.1-8. 

4. Jianping Li, Xiaoqin Zhou, Hongwei Zhao, Mingkun Shao, Zunqiang Fan, and Hui Liu. Design and experimental tests of a dual-servo piezoelectric nanopositioning stage for rotary motion. Review of Scientific Instruments, 2015, 86, 045002, 6pp.

5. Pengliang Hou, Hongwei Zhao, Zunqiang Fan, Jianping Li, Xiuquan Xu, Pre-Crack 7075 Aluminium Alloy Characterize by Acoustic Emission Under Three-Point Bending, Journal of Computational and Theoretical Nanoscience, 2015, 5 (5), pp. 5184-5191. 

6. Pengliang Hou, Zunqiang Fan, Lin Zhang, Jianping Li, Haishuang Fu, Lei Han, Hongwei Zhao. An In Situ ThreePoint Bending Study on PreNotch 7075 Aluminium Alloy with AcousticEmission, MATERIALS TRANSACTIONS, 2015, 56 (12), pp. 1977-1983. 

7. Jianping Li, Hongwei Zhao, Xiaoqin Zhou, Zejun Li, Tao Cui. Research on the Effect of the Corrugated Contact Surface on an Inchworm-type Piezoelectric Rotary Actuator by Finite Element Method, Manipulation, Manufacturing and Measurement on the Nanoscale (3M-NANO), 2015 International Conference on. IEEE, 2015. 

2014年

1. Jianping Li, Hongwei Zhao, Mingkun Shao, Xiaoqin Zhou, Hu Huang, and Zunqiang Fan. Design and experiment performances of an inchworm type rotary actuator, Review of Scientific Instruments, 2014, 85, 085004, 6pp.

2. Zhichao Ma, Hongwei Zhao, Hongbing Cheng, Jianping Li. Effects of 2D misalignment on tensile results and corresponding correction methods to obtain the true stress–strain curve. Measurement Science and Technology, 2014, 25(11), 115011. 

3. Zejun Li, Hongwei Zhao, Tao Cui, Jianping Li. Research on the Effect of the Friction on an Inchworm-type Piezoelectric-driven Rotary Actuator via Finite Element Method, Sensors &Transducer, 2014, 181(10), pp. 1-5. 

4. Zejun Li, Tao Cui, Hongwei Zhao, Jianping Li. Quasi-Static Contact Analysis of an Inchworm-Type Piezoelectric-Driven Rotary Actuator via Finite Element Method, Applied Mechanics and Materials, 2014; 551, pp. 115-120. 

2013年

1. Jianping Li, Hongwei Zhao, Han Qu, Tao Cui, Lu Fu, Hu Huang, Luquan Ren, Zunqiang Fan. A piezoelectric-driven rotary actuator by means  of inchworm motion, Sensors and Actuators A: Physical, 194(2013) 269-276. 

2. Hongwei Zhao, Chuang Liu, Tao Cui, Ye Tian, Chengli Shi, Jianping Li, Hu Huang. Influences of sequential cuts on micro-cutting process studied by smooth particle hydrodynamic (SPH), Applied Surface Science, 2013, 284, pp. 366-371. 

3. Hongwei Zhao, Lu Fu, Luquan Ren, Hu Huang, Zunqiang Fan, Jianping Li, Han Qu. Design and experimental research of a novel inchworm type piezo-driven rotary actuator with the changeable clamping radius, Review of scientific instruments, 2013, 84(1), 015006, 10pp. 

4. Hu Huang, Lu Fu, Hongwei Zhao, Chengli Shi, Luquan Ren, Jianping Li, Han Qu. Note: A novel rotary actuator driven by only one piezoelectric actuator, Review of scientific instruments, 2013, 84(9), 096105, 4pp. 

5. Chengli Shi, Hongwei Zhao, Hu Huang, Lixia Xu, Luquan Ren,Meilin Bai, Jianping Li, Xiaoli Hu. Effects of Indenter Tilt on Nanoindentation Results of Fused Silica an Investigation by Finite Element Analysis, MATERIALS TRANSACTIONS, 2013, 56(6), pp. 958-963. 

   
   

代表性知识产权

国际专利：

[1]   多载荷多物理场耦合材料微观力学性能原位测试仪器，美国, 国际专利, US10012576B2，授权公告日：2018年7月3日。

 国家发明专利： 

 [1]  一种双振子自激泵，中国, 国家发明专利, ZL201900191215.9，授权公告日：2020年4月21日。

 [2]  多自由度微纳米级仿生精密旋转驱动装置，ZL201110205736.9，授权公告日：2013年10月9日。

 [3]  微纳米级仿生多自由度驱动装置，ZL201210226883.9，授权公告日：2014年10月22日。

 [4] 基于粘滑惯性的串联式三自由度压电精密驱动平台，ZL201410536805.8，授权公告日：2015年5月5日。

 [5]  可用于多物理场耦合条件下的拉扭复合夹具，授权公告日：2016年8月17日。

教学情况

主讲课程：本科：《机械工程测试技术基础》/《智能检测与控制技术》、《控制工程基础》/《智能控制工程基础》、《机械精度设计》、《机电一体化设计》、《机械系统设计》、《微机电系统》
                 研究生：《现代控制理论》、《论文写作指导与学术规范教育》

浙江师范大学精密机械研究所

精密机械与智能结构科研团队（研究所），现有教授4名、副教授8名、讲师6名（博士）以及多名实验人员和研究生，其主要成员自20世纪90年代开始从事精密驱动与检测技术研究，先后承担国家863、国家自然基金、科技部创新基金、省科技发展计划及省基金等课题30余项，发表论文300余篇，授权发明专利100余项。所在院校非常重视本研究团队的发展与建设，提供办公及实验室面积 500 多平方米，已投资 1000 多万元购买了试验测试仪器、计算机工作站及微纳加工设备等 50 余台套，并以申请人为主组建了微纳传感与检测实验室，团队另有MEMS超净实验室、超精密加工实验室等若干，血液/血栓生物电阻抗特性检测设备齐全，与中心医院等的合作保障了试验材料的供给，形成了特色鲜明的生物电阻抗谱应用研究基地，其完善的实验设备为本项目生物电阻抗谱检测提供了良好的实验条件。