胡意立，男，浙江杭州人，副教授、硕导、博士，现为浙江师范大学工学院党委委员，浙江省科技厅合作处STS中心主任。2020年毕业于上海交通大学电子科学与技术专业，获工学博士学位，长期从事压电精密驱动与控制技术、压电/摩擦电发电与传感技术研究。浙江师范大学-中科院北京纳米所微纳器件与系统研究中心、浙江师范大学精密机械与智能结构研究中心骨干。主持国家自然科学基金青年项目1项、浙江省自然科学基金探索项目1项、教育部产学合作协同育人项目1项、企业横向项目1项，作为主要负责人完成中国石油勘探开发研究院委托技术开发合作项目2项，参与浙江省重点研发计划项目1项、省级一流课程1项、校级教改项目3项，获浙江省自然科学奖三等奖1项。在Nano Energy、IEEE Transactions On Industrial Electronics、Energy conversion and management、Mechanical system and signal processing、Applied Physics Letters等期刊发表SCI收录论文50余篇，授权专利10余项。现担任IEEE Transactions on Industrial Electronics、Energy conversion and management、Nano Energy、Energy、Mechanical system and signal processing等多个SCI期刊审稿人，英文期刊“Sensors”特邀编辑。指导本科生获大学生国家级创新创业项目 3 项、浙江省新苗人才计划1项、全国大学生力学竞赛优秀奖 2 项，培养本科生香港大学直博 1 名，中科院保研 1 名 ，东华大学读研1名。

代表性科研与教学项目

(1)国家自然科学基金委员会，国家自然科学基金青年科学基金项目，52205075，面向高密度探针型神经微电极的一驱多动式压电微驱动系统研究，2023.1-2025.12，30万，在研，主持；

(2)浙江省自然科学基金委员会，浙江省自然科学基金探索项目，LQ21E050013，多频/磁力混合涡激振动式压电流体能量采集器工作机理及耦合特性研究，2021.1-2023.12，10万，在研，主持；

(3)教育部高等教育司，教育部-北京瑞尼尔网络科技有限公司产学合作协同育人项目，R-ZJNU-202011，典型虚拟仿真实验教学项目设计与应用，2021.1-2021.12，5万，在研，主持；

(4)浙江大年科技有限公司，横向项目，2022330701000798，直升机航磁探测系统主体模块，2022.3-2023.3，32万，在研，主持；

(5)浙江省自然科学基金委员会，浙江省重点研发计划项目，2021C01181，智能传感、柔性显示材料与器件研发与应用-压电智能传感/驱动器件的关键技术研发与应用，2021.1-2023.12，1000万，在研，参加；

(6)浙江省教育厅，省级线上线下混合式一流课程（教学团队），2022，机械原理，参加。

代表性论著

2023

[1]    Yili Hu1, Ying Hu1, Jianping Li1, Zekang Wang , Jijie Ma , Tinghai Cheng*, Jianming Wen*. Self-powered siphon rain gauge based on triboelectric nanogenerators[J]. Mechanical Systems and Signal Processing, 2023.

[2]    Shengrong Lin, Jijie Ma, Jianping Li, Shengjie Li, Minghao Wang, Yili Hu*, Jianming Wen*. A novel inertial impact piezoelectric actuator with adjustable angle vibrators[J]. International Journal of Mechanical Sciences, 2023, 244: 108071.

[3]    Shengrong Lin,Taofei Long,Jijie Ma, JIangping LI, Yu Zhang, Yili Hu*, Jianmin Wen. Study on the joint effect of the driving voltage and carrying load on the piezoelectric inertial actuator for positioning[J]. Mechatronics, 2023, 95, 103065.

[4]    Taofei Long, Jianming Wen, Shengrong Lin, Shengjie Li, Xinhui Li*, Yili Hu*. Design of Piezoelectric Inertial Actuator with Wedge-shaped Foot Structure for Cell Manipulation[J]. Advanced Materials Interfaces, 2023, 10(17): 2300118.

[5]    Jianming Wen, Nan Wei, Yaru Ding, Xinhui Li, Jianping Li, Jijie Ma, Zhonghua Zhang, Guangming Cheng, Yili Hu*. Study of a piezoelectric energy harvesting collaborative strategy based on the synergy of multi-frequency technique and magnetic nonlinear technique[J]. Advanced Engineering Materials, 2023, Early Access.

[6]    Guocheng Shen, Yili Hu, Jianping Li, Jianming Wen, Jijie Ma*. A piezo-triboelectric hybrid nanogenerator based on charge pumping strategy[J]. Energy Conversion and Management, 2023, 292: 117368.

[7]    Jianping Li, Yili Hu, Xiaoning Wang, Lidong He, Jijie Ma, Nen Wan, Jianming Wen*, Tinghai Cheng*. A Bow‐Drill Structured Triboelectric Nanogenerator for Marine Ranching Monitoring[J]. Advanced Materials Technologies, 2023, 8(5): 2201471.

[8]     Qitao Lu, Jijie Ma*, Xiaohui Lin, Yili Hu, Jianping Li, Jianming Wen*. The Development of Piezoelectric Inchworm Actuator Clamped With Magnetorheological Elastomer and Its Potential Application in Brain–Computer Interface Implantation[J]. IEEE Transactions on Industrial Electronics, 2023, 70(4): 4018-4026.

[9]    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.

[10] Jianping Li, Li Cheng, Nen Wan*, Jijie Ma, Yili Hu, Jianming Wen. Hybrid harvesting of wind and wave energy based on triboelectric-piezoelectric nanogenerators[J]. Sustainable Energy Technologies and Assessments, 2023, Early Access..

[11]  Chengpeng Ge, Jijie Ma, Yili Hu, Jianping Li, Yu Zhang, Xinsheng He*, Tinghai Cheng*, Jianming Wen*. A Self‐Powered Flow Velocity Sensing System Based on Hybrid Piezo‐Triboelectric Nanogenerator[J]. Advanced Materials Technologies, 2023, 8(5): 2201296.

[12] Zhenzhong Song, Jianming Wen, Nen Wan, Jijie Ma, Yili Hu, Yu Zhang, Zengfeng Gao, Miao Zheng, Jianping Li*. An Optimization Algorithm H-GVSPM for Electrical Impedance Tomography[J]. IEEE Sensors Journal, 2023, 23(5): 4518-4526.

[13] Minghao Wang, Minyi Jin, Longchun Wang, Ye Fan, Jiahui Xu, Siyan Shang, Chuner Ni, Yili Hu, Yuhua Cheng, Linxi Dong, Bowen Ji*, Jingquan Liu*, Gaofeng Wang*. Noise Mitigation Strategies for Silicon-Based Active Neural Optrode[J]. IEEE Sensors Journal, 2023, 23(9): 9058-9066.

[14] Jijie Ma, Junhao Li, Xiaohui Lin, Xinsheng He*, Yili Hu, Jianping Li, Jianming Wen*. An Inchworm and Stick-Slip Dual Mode Piezoelectric Linear Actuator for Cell Injection[J]. IEEE Access, 2023, 11: 70534-70541.

[15] 李建平, 何立栋, 胡意立, 温建明, 马继杰, 万嫩. 全血分析在疾病筛查中的应用研究[J]. 生物化学与生物物理进展, 2023: 1-25.

[16] 何立栋, 李建平, 魏碧倩, 温建明, 刘浩, 马继杰, 胡意立, 张昱, 万嫩, 李柠. 多层生物介质传感器的特性研究（英文）[J]. 生物化学与生物物理进展, 2023, 50(6): 1434-1442.

2022

[17] Yili Hu1, Jiangtao Zhou1, Jianping Li, Jijie Ma, Ying Hu, Feng Lu, Xinsheng He, Jianming Wen*, Tinghai Cheng*. Tipping-bucket self-powered rain gauge based on triboelectric nanogenerators for rainfall measurement[J]. Nano Energy, 2022, 98: 107234.

[18] Yili Hu, Ying Hu, Shengrong Lin, Jijie Ma, Shengjie Li, Jianping Li, Jianming Wen*. Theoretical modeling and dynamic characteristics analysis of piezoelectric inertial actuator[J]. International Journal of Mechanical Sciences, 2022, 225: 107363.

[19] Xiaoning Wang1, Yili Hu1, Jianping Li*,2, Jijie Ma, Nen Wan, Jianming Wen2, Tinghai Cheng2. A double-float structured triboelectric nanogenerator for wave hydrological monitoring[J]. Sustainable Energy Technologies and Assessments, 2022, 54: 102824.

[20] Guocheng Shen, Jijie Ma, Yili Hu, Jianping Li, Tinghai Cheng*, Jianming Wen*. An Air Velocity Monitor for Coal Mine Ventilation Based on Vortex-Induced Triboelectric Nanogenerator[J]. Sensors, 2022, 22(13): 4832.

[21] 胡意立, 葛程鹏, 刘景全, 温建明. E型梁结构尾涡振动式压电流体俘能器的分析与试验[J]. 实验力学, 2022, 37(6): 911-920.

2021

[22] Ying Hu, Jijie Ma, Yu Zhang, Jianping Li, Yili Hu*, Jianming Wen*. Performance comparison of two motion modes of a piezoelectric inertial linear motor and its potential application in cell manipulation[J]. Mechanical Systems and Signal Processing, 2021, 157: 107743.

[23] Jianping Li, Lidong He, Junjie Cai, Yili Hu*, Jianming Wen, Jijie Ma, Nen Wan*. A walking type piezoelectric actuator based on the parasitic motion of obliquely assembled PZT stacks[J]. Smart Materials and Structures, 2021, 30(8): 085030.

[24] Renming Wang, Yili Hu, Dezhu Shen, Jijie Ma, Jianping Li, Jianming Wen*. A Novel Piezoelectric Inchworm Actuator Driven by One Channel Direct Current Signal[J]. IEEE Transactions on Industrial Electronics, 2021, 68(3): 2015-2023.

[25] Jianping Li, El Maalouma Sidi Brahim, Jianming Wen*, Nen Wan*, Yili Hu, Lidong He, Masahiro Takei. Quantitative Measurement of the Erythrocyte Sedimentation Based on Electrical Impedance Spectroscopy With Modified HANAI Theory and the Multi-Frequency Parameter X c[J]. IEEE Sensors Journal, 2021, 21(23): 27084-27092.

[26] Xia Huang, Yili Hu, Jijie Ma*, Jianping Li, Hai Lin, Jianming Wen. An inertial piezoelectric rotary actuator based on active friction regulation using magnetic force[J]. Smart Materials and Structures, 2021, 30(9): 095014.

[27] Qitao Lu, Jianming Wen, Yili Hu, Jianping Li, Jijie Ma*. An Integrated Piezoelectric Inertial Actuator Controlled by Cam Mechanisms[J]. IEEE Access, 2021, 9: 152756-152764.

[28] Tianyu Jiang, Jijie Ma*, Yili Hu, Qitao Lu, Jianping Li, Jianming Wen*. A Piezoelectric Linear Actuator Controlled by the Reversed-Phase Connection of Two Bimorphs[J]. IEEE Access, 2021, 9: 45845-45852.

[29] Huilu Bao, Jianping Li*, Jianming Wen, Li Cheng, Yili Hu, Yu Zhang, Nen Wan, Masahiro Takei. Quantitative Evaluation of Burn Injuries Based on Electrical Impedance Spectroscopy of Blood with a Seven-Parameter Equivalent Circuit[J]. Sensors, 2021, 21(4): 1496.

[30] Jianping Li, Junjie Cai, Nen Wan*, Yili Hu, Jianming Wen, Junwu Kan, Song Chen, Hongwei Zhao*. A Novel Bionic Piezoelectric Actuator Based on the Walrus Motion[J]. Journal of Bionic Engineering, 2021, 18(5): 1117-1125.

[31] Xi He, Yu Zhang*, Jianping Li*, Zhenzhong Song, Jianming Wen, Jijie Ma, Yili Hu. An Improved Algorithm GVSPM-F for Electrical Impedance Tomography[J]. IEEE Access, 2021, 9: 12592-12600.

[32] 胡意立, 胡影, 李建平, 温建明, 兰虎. 具有“前进-前进”运动模式的惯性压电驱动器[J]. 光学精密工程, 2021, 29(6): 1356-1364.

2020

[33] 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[J]. Applied Physics Letters, 2020, 117(3): 031902.

[34] Zhiran Yi, Feng Xie, Yingwei Tian, Ning Li, Xiaoxue Dong, Ye Ma, Yue Huang, Yili Hu, Xiaobin Xu, Dan Qu, Xilong Lang, Zhiyun Xu, Jingquan Liu, Hao Zhang*, Bin Yang*. A Battery‐ and Leadless Heart‐Worn Pacemaker Strategy[J]. Advanced Functional Materials, 2020, 30(25): 2000477.

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

[36] Dezhu Shen, Jianming Wen*, Jijie Ma, Yili Hu, Renming Wang, Jianping Li. A novel linear inertial piezoelectric actuator based on asymmetric clamping materials[J]. Sensors and Actuators A: Physical, 2020, 303: 111746.

2019

[37] Yili Hu, Renming Wang, Jianming Wen*, Jing-Quan Liu*. A Low-Frequency Structure-Control-Type Inertial Actuator Using Miniaturized Bimorph Piezoelectric Vibrators[J]. IEEE Transactions on Industrial Electronics, 2019, 66(8): 6179-6188.

[38] Yili Hu1, Zhiran Yi1, Xiaoxue Dong, Fangxiao Mou, Yingwei Tian, Qinghai Yang, Bin Yang*, Jingquan Liu*. High power density energy harvester with non-uniform cantilever structure due to high average strain distribution[J]. Energy, 2019, 169: 294-304.

[39] Nen Wan, Jianming Wen, Yili Hu, Junwu Kan, Jianping Li*. A parasitic type piezoelectric actuator with an asymmetrical flexure hinge mechanism[J]. Microsystem Technologies Micro- and Nanosystems Information Storage and Processing Systems, 2020, 26(3): 917-924.

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

[41] 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[J]. IEEE Access, 2019, 7: 43573-43580.

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

[43] Qitao Lu, Jianming Wen*, Yili Hu, Kang Chen, Huilu Bao, Jijie Ma. Novel inertial piezoelectric actuator with high precision and stability based on a two fixed-end beam structure[J]. Smart Materials and Structures, 2019, 28(1): 015030.

[44] 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[J]. IEEE Access, 2019, 7: 157724-157729.

2018

[45] Yili Hu, Bin Yang, Xiang Chen, Xiaolin Wang, Jingquan Liu*. Modeling and experimental study of a piezoelectric energy harvester from vortex shedding-induced vibration[J]. Energy Conversion and Management, 2018, 162: 145-158.

[46] Yili Hu, Fangxiao Mou, Bin Yang, Xiang Chen, Xiaolin Wang, Jingquan Liu*. A broadband E-shaped piezoelectric energy harvester based on vortex-shedding induced vibration from low velocity liquid flow[J]. AIP Advances, 2018, 8(12): 125214.

[47] Zhiran Yi, Yili Hu, Bowen Ji, Jingquan Liu, Bin Yang*. Broad bandwidth piezoelectric energy harvester by a flexible buckled bridge[J]. Applied Physics Letters, 2018, 113(18): 183901.

[48] Guimiao Li1, Zhiran Yi1, Yili Hu, Jingquan Liu, Bin Yang*. High-performance low-frequency MEMS energy harvester via partially covering PZT thick film[J]. Journal of Micromechanics and Microengineering, 2018, 28(9): 095007.

2017

[49] Tao Fu, Xiaohan Pei, Qinghai Yang, Yili Hu, Eryang Ming, Siwei Meng, Shouzhi Huang. Study on a MEMS-Based Piezoelectric Energy Harvester[C]//Abu Dhabi International Petroleum Exhibition & Conference. OnePetro, 2017.

[50] 易志然, 胡意立, 杨斌. 阶梯梁式压电振动能量采集器的输出特性研究与结构优化[C]//中国力学大会-2017暨庆祝中国力学学会成立60周年大会论文集（B）. 中国力学学会、北京理工大学, 2017: 1748-1756.

2015

[51] Guangming Cheng, Yili Hu, Jianming Wen*, Ping Zeng, Chunmei Xing. Piezoelectric inertial rotary actuators based on asymmetrically clamping structures[J]. Sensors and Actuators A: Physical, 2015, 223: 125-133.

代表性专利

[1]   万嫩, 李建平, 胡意立. 一种基于爬行原理的压电旋转驱动平台[P]. 2023-01-31.

[2]   阚君武, 张李, 胡意立, 孟凡许, 曾平, 吴鸣, 程光明. 一种自发电的充电器[P]. 2023-06-02.

[3]   王淑云, 杜洁雅, 胡意立, 张议仁, 施继忠, 吴鸣, 曾平, 程光明. 一种基于低频俘能的定位跟踪装置[P]. 2023-03-14.

[4]   王淑云, 徐鸿轩, 张议仁, 胡意立, 程光明, 曹红兵, 吴鸣, 曾平. 一种流致振-旋转式摩擦发电机[P]. 2023-06-16.

[5]   王淑云, 沈正鸿, 夏泽一, 胡意立, 吴鸣, 万嫩, 曾平, 程光明. 一种多功能不倒翁[P]. 2023-03-21.

[6]   李建平, 何立栋, 万嫩, 胡意立, 马继杰, 陈松. 一种D-二聚体检测装置及其检测方法[P]. 2023-02-24.

[7]   李建平, 程立, 万嫩, 胡意立, 马继杰, 陈松. 一种深远洋养殖自驱动传感器供能装置[P]. 2023-01-31.

[8]   李建平, 明禹彤, 万嫩, 温建明, 胡意立, 马继杰. 一种凝血检测器[P]. 2023-04-04.

[9]   万嫩, 李建平, 胡意立. 一种基于非对称三角形圆弧式柔性铰链机构的压电精密驱动装置[P]. 2022-12-27.

[10] 胡意立, 施嘉诚, 温建明, 马继杰, 李建平, 万嫩. 一种多频结构耦合磁力的压电流体涡激振动俘能器[P]. 2022-11-01.

[11] 胡意立, 施嘉诚, 温建明, 马继杰, 李建平, 万嫩. 一种非接触力诱发的驰振式压电流体自供能传感器[P]. 2022-10-11.

[12] 胡意立, 魏楠, 温建明, 马继杰, 李建平, 李胜杰, 万嫩. 一种多梁非线性的压电振动俘能器[P]. 2022-11-15.

[13] 万嫩, 李建平, 温建明, 胡意立. 一种人工心脏泵血栓示警装置[P]. 2022-08-12.

[14] 李建平, 吴杨, 万嫩, 胡意立, 马继杰, 陈松. 一种复合发电机[P]. 2022-12-23.

[15] 温建明, 林圣容, 胡意立, 马继杰, 李建平, 李胜杰, 万嫩. 一种非对称质量式压电惯性驱动器[P]. 2022-11-08.

[16] 李新辉, 温建明, 胡意立, 朱玉琪, 杨湘煜, 俞凯还, 陈琳琳. 一种磁悬浮式侧压单向微动力压电惯性驱动器[P]. 2021-07-13.

[17] 李新辉, 胡意立, 徐洪, 程光明, 朱玉琪, 杨湘煜, 俞凯还, 陈琳琳. 一种磁吸调节式竖压单向微动力压电惯性驱动器[P]. 2021-05-11.

[18] 李新辉, 徐洪, 程光明, 胡意立, 朱玉琪, 杨湘煜, 俞凯还, 陈琳琳. 一种液漂浮式侧压单向微动力压电惯性驱动器[P]. 2021-07-13.

[19] 李建平, 李柠, 万嫩, 白雪, 何立栋, 温建明, 胡意立, 蔡俊杰, 明禹彤, 张云天. 一种血沉检测装置及其检测方法[P]. 2021-03-26.

[20] 刘景全, 胡意立, 杨斌, 陈翔, 王晓林. 一种油田注水井配水管电控工具的供电装置[P]. 2020-09-25.

[21] 宋振忠, 李建平, 温建明, 程立, 何立栋, 万嫩, 胡意立, 马继杰, 张昱. 一种基于生物电阻抗成像的便携式乳腺肿瘤检测装置[P]. 2020-04-28.

[22] 李新辉, 胡意立, 徐洪, 程光明, 朱玉琪, 杨湘煜, 俞凯还, 陈琳琳. 一种磁吸调节式竖压单向微动力压电惯性驱动器[P]. 2020-09-29.

[23] 李建平, 万嫩, 胡意立, 温建明, 陈世楚. 一种基于非对称三角形铰链机构的旋转式压电驱动装置[P]. 2020-02-28.

[24] 万嫩, 李建平, 陈世楚, 胡意立, 马继杰, 张昱. 一种基于非对称三角形圆弧式柔性铰链机构的新型高效压电旋转精密驱动平台[P]. 2020-03-24.

[25] 李建平, 万嫩, 温建明, 胡意立, 马继杰, 张昱. 一种跳跃式机器人及其控制方法[P]. 2020-12-11.

[26] 万嫩, 李建平, 张昱, 马继杰, 胡意立, 陈松, 郑佳佳, 王仁明, 蔡俊杰. 一种钳位式压电驱动平台及其激励方法[P]. 2020-05-15.

[27] 李建平, 万嫩, 温建明, 张昱, 马继杰, 胡意立. 一种步进式驱动装置[P]. 2020-05-22.

[28] 万嫩, 李建平, 温建明, 张昱, 马继杰, 胡意立, 鲍慧璐, 王仁明. 一种具有弹簧机构的驱动装置[P]. 2020-05-08.

[29] 万嫩, 李建平, 温建明, 张昱, 马继杰, 胡意立, 鲍慧璐, 王仁明. 一种可变摩擦驱动装置[P]. 2020-05-19.

[30] 李建平, 万嫩, 温建明, 张昱, 马继杰, 胡意立, 陈世楚, 蔡俊杰. 一种压电驱动平台[P]. 2020-05-15.

[31] 李建平, 万嫩, 温建明, 张昱, 马继杰, 胡意立, 陈世楚, 蔡俊杰. 一种旋转作动器[P]. 2020-05-22.

[32] 万嫩, 李建平, 温建明, 张昱, 马继杰, 胡意立, 程光明, 阚君武, 白雪. 一种旋转运动驱动装置[P]. 2020-05-15.

[33] 万嫩, 李建平, 温建明, 张昱, 马继杰, 胡意立, 程光明, 阚君武, 蔡俊杰. 一种仿生尺蠖式驱动装置及其激励方法[P]. 2020-07-07.

[34] 李建平, 万嫩, 温建明, 张昱, 马继杰, 胡意立, 姚佳峰, 黄晶石, 赵桐, 刘夏仪. 一种旋转驱动平台及其控制方法[P]. 2020-07-07.

[35] 李建平, 温建明, 何立栋, 万嫩, 张昱, 马继杰, 胡意立. 一种基于生物电阻抗原理的血小板聚集检测装置[P]. 2020-03-24.

[36] 李建平, 万嫩, 温建明, 程光明, 阚君武, 张忠华, 胡意立, 姚佳峰, 黄晶石, 赵桐. 一种压电驱动装置及其控制方法[P]. 2020-05-15.

[37] 刘景全, 胡意立, 易志然, 杨斌, 陈翔, 王晓林. 一种基于涡激振动的管道流流速监测自供电传感器[P]. 2019-04-05.

[38] 程光明, 李新辉, 李晓旭, 胡意立, 温建明, 阚君武, 张忠华, 曾平. 仿生型压电足式驱动器[P]. 2016-04-27.

[39] 胡意立, 程光明, 温建明, 李新辉, 李晓旭, 邢春美, 曾平. 一种非对称磁压电惯性旋转驱动器[P]. 2014-06-11.

[40] 程光明, 李新辉, 李晓旭, 胡意立, 温建明, 阚君武, 张忠华, 曾平. 仿生型压电足式驱动器[P]. 2014-03-05.

[41] 程光明, 张海滨, 李新辉, 温建明, 曾平, 胡意立, 张忠华. 变摩擦式非对称夹持惯性压电旋转驱动器[P]. 2014-02-26.

[42] 鄂世举, 曹建波, 胡意立. 一种基于介电弹性体的新型驱动器[P]. 2012-03-07.

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2015.9 -- 2020.3
上海交通大学       电子科学与技术       博士研究生毕业       博士学位

2012.9 -- 2015.6
浙江师范大学       物理电子学       硕士研究生毕业       硕士学位

2008.9 -- 2012.6
浙江师范大学       机械设计制造及其自动化       大学本科毕业       学士学位

2020.4 -- 至今

浙江师范大学      工学院

2022.3 -- 至今

浙江省科学技术厅      合作处      中国科学院STS浙江中心