现招收有集成电路设计专业背景和科研经验的博士后/博士/硕士/科研助理。

研究方向:

1.低功耗电源管理芯片，开关电感、开关电容及混合型DC-DC电压转换器

Power management circuits and systems，switch mode, switched-capacitor and hybrid DC-DC power converters

2.振动能/太阳能/热能/无线等能量收集芯片

Piezoelectric/photovoltaic/thermoelectric/RF etc. energy harvesting chips

3.无线充电技术，隔离电源技术，AC-DC整流器

Wireless power transfer, Isolation power management and AC-DC rectifiers

4.高能效GaN驱动芯片，LED驱动芯片

High efficiency GaN drivers，LED drivers

教育背景：

2011年09月-2018年06月 澳门大学, 电机及电脑工程, 硕士、博士

2017年03月-2017年09月 香港科技大学, Integrated Power Electronics Lab 访问交流

2007年09月-2011年07月 澳门大学, 电机及电脑工程, 学士

工作经历：

2021年-至今 复旦大学, 微电子学院, 青年研究员

2018年12月-2021年1月 复旦大学, 博士后

2018年09月-2018年12月 复旦大学, 微电子学院, 研究助理

学术兼职：

IEEE电路与系统学会电力电子分会委员

SCI期刊《Energies》客座编辑，《微电子学》，《Smart Grids》等期刊编委

IEEE ISCAS等会议分会主席

IEEE JSSC, TCAS-1等期刊和会议审稿人

科研获奖：

2024年指导学生获得研究生“创芯大赛”企业命题赛道特等奖

2022年中国电子学会-智芯专项

2019年上海市首届超级博士后

2018年澳门发展基金会博士研究生科技研发奖

科研经历：

在能量收集、电源管理领域发表了二十余篇高质量的文章，其中包含有6篇固态电路顶刊JSSC 论文和3篇“芯片奥林匹克”ISSCC 论文，6篇电力电子顶刊TPE论文，生物电子顶刊TBioCAC论文和定制集成电路顶会CICC论文等，google scholar引用超500次。作为项目负责人承担了一批国家级项目和企业项目，包括国家自然科学基金“可用于物联网的超低功耗压电能源采集和电源管理芯片”项目，国家重点实验室面上项目，晶华微电子等公司项目；作为核心成员参与国家科技部重点研发计划“光电子与微电子器件及集成”重点专项“高能效人机交互芯片技术”和澳门科学技术发展基金会“可用于双向通信的超低功率太阳能CMOS生物可植入传感芯片”等项目。授权多项国际、国内专利。

代表性论文（*通讯作者）：

[1] J. Ruan, Z. Chen, et al., “A Hybrid Buck-or-Boost Converter for Fast-Transient and Wide-Voltage-Range Applications With Continuous Output Delivery Current,” IEEE Journal of Solid-State Circuits (JSSC), 2025.

[2] Y. Wei, Z. Chen, et al., “An Inductor-less Capacitor-less Synchronous Piezoelectric-Electromagnetic Hybrid Energy Harvesting Platform with Coil-Sharing Scheme,” IEEE International Solid-State Circuits Conference (ISSCC), Feb, 2025.

[3] J. Wang, Z. Chen*, et al., “Enhancing Efficiency in Piezoelectric Energy Harvesting: Collaborative-flip Synchronized Switch Harvesting on Capacitors Rectifier and Multi-Output DC-DC Converters Utilizing Shared Capacitors,” IEEE Journal of Solid-State Circuits (JSSC), 2024.

[4] Z. Li, Z. Chen*, et al., “Piezoelectric Energy Harvesting Interface Using Self-bias-flip Rectifier and Switched-PEH DC-DC for MPPT,” IEEE Journal of Solid-State Circuits (JSSC), 2024.

[5] Q. Zuo, Z. Chen*, et al., An Ultra-Efficient and Compact Flipping-Input Synchronized Switch Harvesting on Inductor and Capacitors Interface Circuit for Piezoelectric Energy Harvesting, IEEE Transaction on Circuits and SystemsⅡ(TCAS-Ⅱ), 2024.

[6] W. Li, Z. Chen*, et al., “A Single-Stage Four-Phase Dual-Output Regulating Rectifier With Ultrafast Transient Response Using Double-Frequency Current-Wave Modulation”, IEEE Int. Symp. Circuits and Systems (ISCAS), 2024.

[7] X. Yue, Z. Chen, et al., “A Fully Integrated Sequential Synchronized Switch Harvesting on Capacitors Rectifier Based on Split-Electrode for Piezoelectric Energy Harvesting”, IEEE Transactions on Power Electronics (TPE), 2024.

[8] T. Lu, Z. Chen, et al., “A Thermoelectric Energy Harvesting System Assisted by a Piezoelectric Transducer Achieving 10-mV Cold-startup and 82.7% Peak Efficiency”, IEEE Transactions on Power Electronics (TPE), 2024.

[9] Z. Li, Z. Chen*, et al., “A Self-Bias-flip Piezoelectric Energy Harvester Array without External Energy Reservoirs achieving 488% Improvement with 4-Ratio Switched-PEH DC-DC Converter, IEEE Custom Integrated Circuits Conference (CICC), Apr., 2023.

[10] Z. Li, Z. Chen*, et al., “A Self-bias-flip with Charge Recycle Interface Circuit with No External Energy Reservoir for Piezoelectric Energy Harvesting Array, IEEE Transactions on Power Electronics (TPE), July, 2023.

[11] Q. Lu, Z. Chen, et al., “A Dynamically Reconfigurable Recursive Switched-Capacitor DC-DC Converter with Adaptive Load Ability Enhancement, IEEE Transactions on Power Electronics (TPE), June, 2023.

[12] S. Liu, Z. Chen, et al., “A Single-stage 3-Mode Reconfigurable Regulating Rectifier for Wireless Power Transfer, IEEE Transactions on Power Electronics (TPE), June, 2023.

[13] J. Wang, Z. Chen*,et al., Piezoelectric Energy Harvesters: An Overview on Design Strategies and Topologies, IEEE Transaction on Circuits and SystemsⅡ(TCAS-Ⅱ), Vol. 69, no. 7, pp 3057-3063, July 2022.

[14] Y. Yang, Z. Chen*, et al., Circuit Techniques for High Efficiency Piezoelectric Energy Harvesting, Micromachines, vol. 13, no. 7, pp 1044, 2022.

[15] H. Zhao, Z. Chen*, et al., A Tuning Range Extension Technique for Waveform-Shaping Single-core CMOS Oscillators with No Dedicated Harmonic Tuning, IEEE Transaction on Circuits and SystemsⅡ(TCAS-Ⅱ), Oct. 2022.

[16] J. Wang, Z. Chen*, et al., A Cross Regulation Reduced Multi-Output and Multi-VCR Piezoelectric Energy Harvesting System Using Shared Capacitors, IEEE Int. Symp. Circuits and Systems (ISCAS), Oct. 2022.

[17] Y. Yang, Z. Chen*, et al., A Multiple Charge Extractions and Multiple Pre-charge Interface Circuit for Piezoelectric Energy Harvesting, IEEE Int. Symp. Circuits and Systems (ISCAS), Oct. 2022.

[18] B. Zhao, Z. Chen, et al “Series Synchronized triple bias-flip circuit: maximizing the usage of single storage capacitor for piezoelectric energy harvesting enhancement”, IEEE Transactions on Power Electronics (TPE), Vol. 36, pp 6787 - 6796, Jun. 2021.

[19] Z. Chen, et al., Piezoelectric Energy Harvesting Interface using Split-Phase Flipping-Capacitor Rectifier with Capacitor-Reuse for Input Power Adaptation, IEEE Journal of Solid-State Circuits (JSSC), Vol. 55, pp 2106-2117, Aug, 2020.

[20] Z. Li, Z. Chen*, et al., An Energy Harvesting System with Reconfigurable Piezoelectric Energy Harvester Array for IoT Applications, IEEE Int. Symp. Circuits and Systems (ISCAS), Oct. 2020.

[21] L. Teng, Z. Chen, “Multiple Charge Extractions with Bias-flip Interface Circuit for Piezoelectric Energy Harvesting, IEEE Int. Symp. Circuits and Systems (ISCAS), Oct. 2020.

[22] Z. Chen, et al., A Piezoelectric Energy-Harvesting Interface using Split-Phase Flipping-Capacitor Rectifier (SPFCR) and Capacitor Reuse Multiple-VCR SC DC-DC Achieving 9.3x Energy-Extraction Improvement, IEEE International Solid-State Circuits Conference (ISSCC), Feb, 2019.

[23] Y. Jiang, Z. Chen, et al, Algebraic Series-Parallel-Based Switched-Capacitor DC–DC Boost Converter with Wide Input Voltage Range and Enhanced Power Density, IEEE Journal of Solid-State Circuits (JSSC), Sep. 2019.

[24] Z. Chen, et al., Fully-Integrated Inductor-less Flipping-Capacitor Rectifier (FCR) for Piezoelectric Energy Harvesting, IEEE Journal of Solid-State Circuits (JSSC), Vol. 52, pp 3168-3180, Dec, 2017.

[25] Z. Chen, et al., “A 1.7mm2 Inductor-less Fully-Integrated Flipping-Capacitor Rectifier (FCR) for Piezoelectric Energy Harvesting with 483% Power Extraction Enhancement, IEEE International Solid-State Circuits Conference (ISSCC), Feb, 2017.

[26] Z. Chen, et al., A Single-Chip Solar Energy Harvesting IC using Integrated Photodiodes with a 66% Charge Pump Maximum Efficiency, IEEE Transaction on Biomedical Circuits and Systems (TBioCAS), Vol. 11, pp 1-10, Jan, 2016.

[27] Z. Chen, et al., Optimization of On-Chip Charge Pump Together with Solar Cell in Micro Watts, IEEE International Conference on Electron Device Solid-State Circuits (EDSSC), Sep. 2013.