1. 基础理论与技术：压电动力学 Piezo-dynamics、非规MEMS工艺技术
   非线性压电动力学、感驱一体压电动力学、压电振动学、非常规压电MEMS工艺

2. 核心器件：压电MEMS传感器与驱动器
   压电力学传感器、自供能传感、微型压电散热器、感驱一体智能传感器、人形机器人触觉传感器

3. 应用技术：医疗微系统 (心脑血管健康)
   振动能量转换与管理、无运动伪影便携式连续血压监测系统、无电池心脏起搏系统、无电池胎压监测系统

4. 应用技术：新原理振动\噪声传感或俘获方法

1. Invited as guest editor in the journal of Biosensors. https://www.mdpi.com/journal/biosensors/special_issues/3833M0YR44
2. Invited to join the Track Technical Committee, Track 3: Materials, Devices and Applications of Flexible Electronics and Intelligent Systems, in 2022 5th International Conference on Electronics and Electrical Engineering Technology (EEET 2022), Beijing, China.
3. Invited as guest editor in the Journal Micromechanics and Microengineering. https://iopscience.iop.org/collections/jmm-230608-256
4. Chip期刊青年编委
5. Peer review for Device, Advanced Functional Materials, IEEE Internet of Things Journal, Scientific Reports, Rapid Prototyping Journal, World Electric Vehicle Journal, Sensors, Review of Scientific Instruments, and Micromachine.
中国振动工程学会会员、IEEE member、中国微米纳米技术学会会员、中国力学学会

2025-2028 NSFC面上项目，无运动伪影脉搏传感压电动力学设计及便携式连续血压监测方法，负责人

2024-2026 上海市白玉兰人才计划浦江项目，人工智能驱动的超高机敏压电MEMS智能传感器动力学设计方法研究，负责人

2024-2026 交大之星计划医工交叉研究基金，基于柔性压电动力学的穿戴式连续血压监测系统临床验证研究，工科负责人

2024-2026 国家重点研发计划智能传感器专项，超低功耗纳机械热压阻传感器敏感元件研究，交大子任务负责人

2023-2026 上海交通大学新进青年教师启动计划，超薄微型压电MEMS散热器及限域空间振动噪声控制方法研究，负责人

2022-2024 NSFC青年项目，仿Piezo离子通道柔性压电传感器外载荷传递机理与力电耦合动态特性研究，负责人
2020-2022 博士后科学基金(特别资助)，医护机械手柔性压电触觉传感器接触力学行为研究与验证，负责人
2020-2022 博士后科学基金(面上资助)，植入式压电能量转换器屈曲动力学特性及类心脏瓣膜振动机理研究，负责人
2020-2021 高校间合作横向课题，微加工压电厚膜振动能量转换模块加工与测试，负责人
2022-2023 地方重点实验室开放基金，多孔压电陶瓷振动诱导高级氧化灭菌除臭技术研究，负责人

1. 第一或通讯作者身份发表的论文 （注：#共同第一作者，*通讯作者）
   

[21] Boyang Peng, Zhiran Yi*, Yu Fan, Xiuxuan Li, Xingyu Wei, Wenming Zhang*. Piezoelectric active air cooling devices. Chip, 2025.

[20] 何庆塱, 徐若程, 易志然*, 张文明*. 界面电作用驱动的无桨泵研究进展与应用. 中国科学: 物理学 力学 天文学, 2025.

[19] Zhiran Yi*, Shoulu Gong, Fuyi Fang, Xiuxuan Li, Junfeng Zhou, Xingyu Wei, Xiaoyong Fang, Lei Shao, and Wenming Zhang*. Sensor-actuator integration for Intelligent device, Device, 2025.

2024

[18] Zhiran Yi, Dong Wu*, Yewang Su*, Bin Yang*, Ye Ma*, Ning Li, Yuanting Zhang, Wenming Zhang*, and Zuankai Wang*. Battery-less cardiac pacing using biomechanical energy harvesting. Device, 2024.
[17] Shoulu Gong#, Fuyi Fang#, Zhiran Yi*, Bohan Feng, Anyu Li, Wenbo Li, Lei Shao*, and Wenming Zhang*. An intelligent spinal soft robot with self-sensing adaptability [J]. The Innovation, 2024, 5(4): 100640.

2023

[16] Huanxi Zheng#, Hao Wu#, Zhiran Yi#, Yuxin Song, Wanghuai Xu, Xiantong Yan, Xiaofeng Zhou, Steven Wang, Zuankai Wang*, Remote-Controlled Droplet Chains-Based Electricity Generators. Advanced Energy Materials, 2023, 2203825.
[15] Zhiran Yi, Xiong Wang, Wanbo Li, Xuezhi Qin, Yang Li, Kaiqiang Wang, Yunting Guo, Xing Li, Wenming Zhang, and Zuankai Wang*. Interfacial friction at action: interactions, regulation, applications. Friction (2023): 1-28.
2022
[14] Zhiran Yi, Zhaoxu Liu, Wenbo Li, Tao Ruan, Xiang Chen, Jingquan Liu, Bin Yang*, and Wenming Zhang*. Piezoelectric dynamics of arterial pulse for wearable continuous blood pressure monitoring. Advanced Materials, 2022, 34(16): 2110291.
[13] Zhiran Yi, Wenming Zhang*, and Bin Yang*. Piezoelectric approaches for wearable continuous blood pressure monitoring: a review. Journal of Micromechanics and Microengineering, 2022, 32(10): 103003.
2021
[12] Zhiran Yi, Bin Yang*, Yadong Wu, Wenming Zhang, and Jingquan Liu. Batteryless Tire Pressure Real-Time Monitoring System Driven by an Ultralow Frequency Piezoelectric Rotational Energy Harvester. IEEE Transactions on Industrial Electronics, 2021(68):3192-3201.
[11] Minglu Zhu#, Zhiran Yi#, Bin Yang*, Chengkuo Lee*. Making use of nanoenergy from human – Nanogenerator and self-powered sensor enabled sustainable wireless IoT sensory systems. Nano Today, 2021(36): 101016.
2020
[10] Zhiran Yi#, Feng Xie#, Yingwei Tian, et al. A Battery- and Leadless Heart-Worn Pacemaker Strategy. Advanced Functional Materials, 2020(30):2000477.
[9] Zhiran Yi#, Jiajie Huang#, Zhaoxu Liu, Jingquan Liu, and Bin Yang*. Portable, Wireless Wearable Piezoelectric Arterial Pulse Monitoring System Based on Nearfield communication approach. IEEE Electron Device Letters, 2020(41):183-186.
2019
[8] Yili Hu#, Zhiran Yi#, 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.
[7] Ning Li#, Zhiran Yi#, Ye Ma#, Feng Xie, Yue Huang, Yingwei Tian, Xiaoxue Dong, Yang Liu, Xin Shao, Yang Li, Lei Jin, Jingquan Liu, Zhiyun Xu, Bin Yang*, and Hao Zhang*. Direct Powering a Real Cardiac Pacemaker by Natural Energy of a Heartbeat. ACS Nano, 2019(13): 2822-2830.
2018
[6] Zhiran Yi, Yili Hu, Bowen Ji, Jingquan Liu, and Bin Yang*. Broad Bandwidth Piezoelectric Energy Harvester by a Flexible Buckled Bridge. Applied Physics Letters, 2018(113): 183901.
[5] Guimiao Li#, Zhiran Yi#, Yili Hu, Jingquan Liu, and Bin Yang*. High Performance Low-Frequency Mems Energy Harvester via Partially Covering PZT Thick Film. Journal of Micromechanics and Microengineering, 2018(28):095007.
[4] Zhiran Yi, Hanjia Yang, Yingwei Tian, Xiaoxue Dong, Jingquan Liu, and Bin Yang*. Self-Powered Force Sensor Based on Thinned Bulk PZT for Real-Time Cutaneous Activities Monitoring. IEEE Electron Device Letters, 2018(39): 1226- 1229. 
2017
[3] Zhiran Yi, Yu Lei, Xianyun Zhang, Yining Chen, Jianjun Guo*, Gaojie Xu, Min-Feng Yu, Ping Cui. Ultralow flexural properties of copper microhelices fabricated via electrodeposition-based three-dimensional direct-writing technology. Nanoscale, 2017(34):12524-12532.
[2] Zhiran Yi, Bin Yang*, Guimiao Li, Jingquan Liu, Xiang Chen, Xiaolin Wang, and Chunsheng Yang. High Performance Bimorph Piezoelectric MEMS Harvester via Bulk PZT Thick Films on Thin Beryllium-Bronze Substrate. Applied Physics Letters, 2017(111): 013902.
2016
[1] Zhiran Yi, Jianjun Guo*, Yining Chen, Haiqing Zhang, Shuai Zhang, Min-feng Yu, Gaojie Xu, Ping Cui. Vertical, Capacitive Microelectromechanical Switch Produced via Direct writing Cu Wires. Microsystems & Nanoengineering, 2016(2): 16010.

2. 第一作者身份发表的会议论文

[9] Zhiran Yi et al. Observation of Energy Orbit Jumping in a Buckled Energy Harvester. Book: The 5th International Conference on Vibration and Energy Harvesting Applications (VEH 2024). DOI : 10.1007/978-981-96-1191-1. 

[8] Zhiran Yi, Wenming Zhang*, and Bin Yang*. Flexible piezo-MEMS fabrication process based on thinned piezoelectric thick film. The 34th IEEE International Conference on micro-electro-mechanical systems (IEEE MEMS), 25-29 January 2021, Virtual Conference.
[7] Zhiran Yi. Mechanism on Buckled Piezoelectric Energy Harvesting for Batteryless Heart-worn Pacemaker. AIP Publishing Horizons-Applied Physics Reviews-Energy Storage and Conversion, 4-6 August 2021, Virtual Conference.
[6] Zhiran Yi, Xiaoxue Dong, Wenbin Zhang, Yingwei Tian, Lingchao Kong, Jingquan Liu, Ruihong Liang, and Bin Yang*. Controllable Nonlinear Effect for Stable and Broad Bandwidth Piezoelectric Energy Harvester. The 2019 20th International Conference on Solid-State Sensors, Actuators and Microsystems (IEEE Transducers) & Eurosensors XXXIII, 23-27 June 2019, Berlin, Germany.
[5] Zhiran Yi, Yingwei Tian, Xiaoxue Dong, Jingquan Liu, and Bin Yang*. Vertically Integrated Double Buckled-Bridge for Softening Nonlinear Piezoelectric Energy Harvester. The 2019 20th International Conference on Solid-State Sensors, Actuators and Microsystems (IEEE Transducers) & Eurosensors XXXIII, 23-27 June 2019, Berlin, Germany.
[4] Zhiran Yi, Lingchao Kong, Yingwei Tian, Xiaoxue Dong, and Bin Yang*. High Performance Flexible Piezoelectric Buckled-Bridge Rational Energy. The 2nd International Conference on Vibration and Energy Harvesting Application (VEH), 13-15 July 2019, Shanghai, China. (Best student poster award Second Runner-Up)
[3] Zhiran Yi, Bin Yang*, Yingwei Tian, Xiaoxue Dong, Xiang Chen, Xiaolin Wang, and Jingquan Liu. Self-Powered, High-Sensitive Human Cutaneous Activities Sensor. The 2018 IEEE 13th Annual International Conference on Nano/Micro Engineered and Molecular Systems (IEEE NEMS), 22-26 April 2018, Singapore. (Finalist of best oral paper award)
[2] 易志然，胡意立，杨斌*，阶梯梁式压电振动能量转换器的输出特性研究与结构优化，《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》，2017年8月13-16日，北京，中国.
[1] 易志然，郭建军，许高杰. 基于电化学沉积原理的直写高密度铜微米线列. 第十四届中国国际纳米科技研讨会. 成都. 2015年10月25-29日. 纳米科技，西安，中国.

3. 专著
[1] Bin Yang, Zhiran Yi, and Chengkuo Lee. Flexible piezoelectric energy harvesters and sensors. ISBN: 978-3-527-34934-0， Wiley-VCH, 2022.