承担科研项目情况。

1. 国家自然科学青年基金,52305131,超低频振动能升频收集器的拓频拓幅机理及技术研究,2024-01-01至2026-12-31,在研,主持。
2. 上海交通大学机械系统与振动国家重点实验室课题，MSV202303,磁耦合限幅调谐拓频的高性能压电振动能量收集技术研究,2023-01至 2024-12,在研,主持。
3. 国家重点研发计划子课题，2022YFB3206804HZ, 磁-电-振多源高效自取能技术， 2022-12 至2025-11,在研, 主持。
4. 2021年度全国博士后创新人才支持计划, BX2021237, 可穿戴混合动能收集及自驱动传感研究, 2021-07至2023-06,在研,主持。
5. 国家电网有限公司总部科技项目, 5500-202158417A-0-0-00, 高效振动取能器件制备及基于微小动能的传感器自供能技术研究, 2021-07至2023-12, 在研, 主持。
6. 陕西省青年基金,2022JQ-315,电磁-摩擦电振动能量收集及自供电振动传感研究, 2022-01至2023-12, 在研, 主持。
7. 国家基金委52275570 “刚-柔”融合柔性电容式MEMS超声换能器耦合机理与制备技术研究,李支康,2023-01-01至2026-12-31 纵向 署名顺序2
8. 西安翔腾微电子科技有限公司J202301014 硅压阻智能一体化传感器设计开发,韩香广,2023-01-15 2025-01-15 横向 署名顺序4
9. 国家重点研发计划项目子课题, 2016YFB1200103-04, 天临空地车轨道交通系统新型集成传感技术研究, 2016-07至2020-6,赵立波, 已结题, 第一参与。

期刊论文

1. Lu Wang, Zhenxuan Fei, Zutang Wu, Yao Ye, Youchao Qi, Jiuhong Wang, Libo Zhao*, Chi Zhang*, Yun Zhang, Guangzhao Qin, Zhuangde Jiang and Ryutaro Maeda, Wearable bending wireless sensing with autonomous wake-up by piezoelectric and triboelectric hybrid nanogenerator [J]. Nano Energy, 2023, 112: 108504. (IF=19.069)
2. Shuai Liu, Lu Wang*, Qian Wang, Xudong Fang, Zhikang Li, Libo Zhao*, Ping Yang, Qijing Lin, Maeda Ryutaro, and Zhuangde Jiang, Hybrid magnetic coupling and impact enhanced low, adjustable and broadband piezoelectric vibration energy harvesting [J]. Sensors and Actuators A-Physical. 2023, 358: 114410. (IF=4.291)
3. Lu Wang, Xiangguang Han*, Ping Yang, Min Li*, Qijing Lin, Libo Zhao, Zhuangde Jiang, and Ryutaro Maeda. Mechanical rectifier for broadband piezoelectric vibration energy harvesting and self-adapting synchronous electric charge extraction [J]. IEEE Transactions on Instrumentation and Measurement. 2023, 72.(IF=5.332)
4. Lu Wang, Tianyiyi He, Zixuan Zhang, Libo Zhao*, Chengkuo Lee*, Guoxi Luo, Qi Mao, Ping Yang , Qijing Lin, Xiang Li, Ryutaro Maeda and Zhuangde Jiang. Self-sustained autonomous wireless sensing based on a hybridized TENG and PEG vibration mechanism [J].Nano Energy, 2021, 80: 105555. (IF=19.069) ESI高被引，被引68次
5. Min Li, Chen Jia, Danyu Zhang, Yunyun Luo Yintao Ma, Guoxi Luo*, Libo Zhao*, Lu Wang*, Zhikang Li a,b,c, Qijing Lin, Ping Yang, Nan Zhu, Rabah Boukherroub, Zhuangde Jiang, An efficient cobalt-nickel phosphate positive electrode for high-performance hybrid microsupercapacitors [J]. Journal of Energy Storage. 2023, 64. (IF=8.907)
6. Youchao Qi, Guoxu Liu, Yang Kuang, Lu Wang, Jianhua Zeng, Yuan Lin, Han Zhou, Meiling Zhu*, Chi Zhang*. Frequency band broadening and charge density enhancement of a vibrational triboelectric nanogenerator with two stoppers [J]. Nano Energy, 2022, 99: 107427.(IF=19.069)
7. Youchao Qi , Yang Kuang, Yaoyao Liu, Guoxu Liu, Jianhua Zeng, Junqing Zhao, Lu Wang, Meiling Zhu*, Chi Zhang*. Kirigami-inspired triboelectric nanogenerator as ultra-wide-band vibrational energy harvester and self-powered acceleration sensor [J]. Applied Energy, 2022, 327.(IF=11.446)
8. Min Li, Chen Jia, Danyu Zhang, Yunyun Luo, Lu Wang, Ping Yang, Guoxi Luo, Libo Zhao, Rabah Boukherroub, and Zhuangde Jiang. Facile Assembly of Hybrid Micro-Supercapacitors for a Sunlight-Powered Energy Storage System [J]. ACS Applied Materials & Interfaces, 2022 14 (42), 47595-47604. (IF=10.383)
9. Weile Jiang, Lu Wang*, Xinquan Wang, Libo Zhao, Xudong Fang, and Ryutaro Maeda. Comparison of L-Shaped and U-Shaped Beams in Bidirectional Piezoelectric Vibration Energy Harvesting [J]. Nanomaterials, 2022, 12(21): 3718. (IF=5.719)
10. Dengfeng Ju, Lu Wang*, Chunlong Li, Hui Huang, Hongjing Liu, Kewen Liu, Qian Wang, Xiangguang Han, Libo Zhao, and Ryutaro Maeda. Frequency Modulation Approach for High Power Density 100 Hz Piezoelectric Vibration Energy Harvester [J]. Sensors, 2022, 22(23): 9493. https://doi.org/10.3390/s22239493 (IF=3.847)
11. Chen Jia , Mingzhi Yu, Guoxi Luo , Xiangguang Han, Ping Yang, Yao Chen, Libo Zhao , Lu Wang, Yonglu Wang, Jiuhong Wang, and Zhuangde Jiang. Modeling and Characterization of a Novel in-Plane Dual-Axis MEMS Accelerometers Based on Self-Support Piezoresistive Beam [J]. Journal of Microelectromechanical Systems, 2022.
12. Lu Wang, Zhenxuan Fei, Youchao Qi, Chi Zhang, Libo Zhao*, Zhuangde Jiang, Ryutaro Maeda. Overview of human kinetic energy harvesting and application [J]. ACS Applied Energy Materials, 2022, 5(6): 7091–7114. (IF=6.959)
13. Lu Wang, Zutang Wu, Shuai Liu, Qian Wang, Junjie Sun, Yun Zhang, Guangzhao Qin, Dejiang Lu, Ping Yang, Libo Zhao, Zhuangde Jiang, and Ryutaro Maeda. Uniform Stress Distribution of Bimorph by Arc Mechanical Stopper for Maximum Piezoelectric Vibration Energy Harvesting [J]. Energies, 2022. 15(9): 3268. (IF=3.252)
14. Lu Wang, Dongsheng Li, Yintao Ma, Libo Zhao, Yao Chen, Junlong Zhang, Zhuangde Jiang, and Ryutaro Maeda.  Hybrid Charging and Storage Design in Sustainable Solar Powered Wireless Sensor Node [J]. Sensors and Materials, 2022, 34(7) : 2771–2790. (IF=0.879)
15. Weile Jiang, Lu Wang*, Libo Zhao*, Guoxi Luo, Ping Yang, Shaobo Ning, Dejiang Lu, Qijing Lin. Modeling and design of V-shaped piezoelectric vibration energy harvester with stopper for low-frequency broadband and shock excitation [J]. Sensors and Actuators A-Physical. 2021, 112458. (IF=4.291)
16. Lu Wang, Libo Zhao*, Guoxi Luo*, Yihe Zhao, Ping Yang, Zhuangde Jiang, Ryutaro Maeda. System Level Design of Wireless Sensor Node Powered by Piezoelectric Vibration Energy Harvesting [J]. Sensors and Actuators A-Physical, 2020, 310: 112039. (IF=4.291) 被引30次
17. Lu Wang, Jianjun Ding*, Zhuangde Jiang, Guoxi Luo, LiboZhao*, Dejiang Lu, XiaoYang, Ryutaro Maeda. A Packaged Micro Piezoelectric Vibration Energy Harvester with High Power and Broadband Characteristics [J]. Sensors and Actuators A-Physical, 2019, 295(12): 629-636. (IF=4.291) 被引20次
18. Lu Wang, Guoxi Luo*, Zhuangde Jiang, Fuzheng Zhang, Libo Zhao*, Ping Yang, Qijing Lin, Ryutaro Maeda. Broadband Vibration Energy Harvesting for Wireless Sensor Node Power Supply in Train Container [J]. Review of Scientific Instruments, 2019, 90(12). (IF=1.523)
19. Lu Wang, Libo Zhao*, Zhuangde Jiang, Guoxi Luo*, Ping Yang, Xiangguang Han, Xiang Li, Ryutaro Maeda. High accuracy comsol simulation method of bimorph cantilever for piezoelectric vibration energy harvesting [J]. AIP Advances, 2019, 9, 095067. (IF=1.548)被引26次
20. Lu Wang, Dejiang Lu, Zhuangde Jiang, Chen Jia, Yumeng Wu, Xiangyang Zhou*, Libo Zhao*, and Yulong Zhao. A Piezoelectric Cantilever with Novel Large Mass for Harvesting Energy from Low Frequency Vibrations [J]. AIP Advances, 2018, 8, 115205. (IF=1.548)
21. Guoxi Luo,  Qiankun Zhang, Min Li, Ke Chen, Wenke Zhou, Yunyun Luo, Zhikang Li, Lu Wang, Libo Zhao*, Kwok Siong Teh*, and Zhuangde Jiang. A flexible electrostatic nanogenerator and self-powered capacitive sensor based on electrospun polystyrene mats and graphene oxide films [J]. Nanotechnology, 2021, 32(40):405402 (10pp). (IF=3.874/Q2)
22. Guoxi Luo, Yunyun Luo, Qiankun Zhang, Shubei Wang, Lu Wang, Zhikang Li, Libo Zhao 1*, Kwok Siong Teh*, and Zhuangde Jiang. The Radial Piezoelectric Response from Three-Dimensional Electrospun PVDF Micro Wall Structure [J]. Materials, 2020, 13(6): 1368. (IF=3.623) 
23. Lu Wang, Dejiang Lu, Shenrong Zhang, Zhikang Li, Yong Xia, Yunyun Luo, Libo Zhao* and Zhuangde Jiang. Design and Simulation of MEMS Piezoelectric Vibration Energy Harvesters with Center Mass Block [J]. Int. J. Nanomanufacturing, 2020, 16(3):221. (EI: 20202908947020)

会议论文

1. Lu WANG, Qian WANG ,Shuai LIU,ZhenXuan FEI,Libo ZHAO ,Maeda Ryutaro*. Piezoelectric vibration energy harvester with high power density by structure and process optimization [C]. SPAWDA 2022.口头报告(EI)
2. Danyu Mu,Lu WANG*,Libo Zhao,Xudong Fang. ADS simulation design of narrowband fbar filter [C]. SPAWDA 2022. (EI)
3. Lu Wang, Libo Zhao*, Guoxi Luo, Yao Chen, Qijing Lin, Zhuangde Jiang. Nonlinear Analysis of Tristable Magnetic Coupling Transverse Array Hinged PVEH with Stopper[C]. The 3rd International Conference on Vibration and Energy Harvesting Applications (VEH 2021), Xi’an, Shaanxi, China, July 9-12, 2021. 口头报告
4. Lu Wang, Libo Zhao*, Zhuangde Jiang, Xiang Li, Ping Yang, Yu Bai, Guoxi Luo, Qijing Lin, and Ryutaro Maeda. Contribution Discrimination of Auxetic Cantilever for Increased Piezoelectric Output in Vibration Energy Harvesting [C]. IEEE NEMS 2021, Xiamen, China, April 25-29, 2021. (EI)
5. Lu Wang, Libo Zhao, Dejiang Lu, Ping Yang, Bian Tian, Guoxi Luo, Yao Chen, Qi Mao, Chenying Wang, Weixuan Jing, Niancai Peng, Junlong Zhang, Zhuangde Jiang and Ryutaro Maeda. In-plane bidirectional vibration bulk PZT energy harvester [C]. JCK MEMS/NEMS 2019, Asahikawa, Japan. July 16-18, 2019. 口头报告
6. Lu Wang, Libo Zhao, Zhuangde Jiang, Xiang Li, Zihang Chen and Ryutaro Maeda. MEMS Piezoelectric Vibration Energy Harvester with In-Plane PZT Bimorph [C]. IEEE NEMS 2019, Bangkok, Thailand, April 11-14, 2019(EI: 20195207894667)
7. Lu Wang, Libo Zhao*, Dejiang Lu, Chen Jia, Zhuangde Jiang. Proof Mass Study for Low Frequency Vibration Energy Harvesting of Piezoelectric Cantilever [C]. ASME_IMECE 2018, PA, USA, Nov 9-15, 2018.
8. Lu Wang, Dejiang Lu, Libo Zhao and Zhuangde Jiang. Novel Double-FBARs-on-Beam for PZT Micro-Accelerometer [C]. ISPEMI 2018, Kunming, China, August 8-10, 2018.
9. Lu Wang, Dejiang Lu, Libo Zhao and Zhuangde Jiang. Human Motion Piezoelectric Vibration Energy Harvesting for Wearable Intelligent Band [C]. The 13^th IEEE-MDBS 2018, Macao, China, June 22-25, 2018. 口头报告

专利

1. 王路; 王骞; 前田龙太郎; 费振轩; 段从升; 张俊龙; 赵立波; 韩香广; 蒋庄德, 一种斜面限幅可调频压电悬臂梁微型振动能量收集器及其工作方法, 2022-8-9, CN202210949947.1
2. 王路; 王辛泉; 赵立波; 韩香广; 李支康; 方续东; 蒋庄德, 一种混合发电的充电宝, 2022-07-16, 中国, ZL202210838013.0.
3. 王路; 赵立波; 韩香广; 王骞; 费振轩; 陈瑶; 李支康; 卢德江; 罗国希; 李敏; 杨萍; 王永录; 王久洪; 蒋庄德, 一种叠层阵列简支梁压电振动能量收集器及能量收集方法, 2021-08-27, 中国, CN202110998561.5.
4. 王路; 赵立波; 韩香广; 费振轩; 王骞; 陈瑶; 罗国希; 卢德江; 李支康; 李敏; 杨萍; 王永录; 王久洪; 蒋庄德, 一种超低频多方向压电振动能量收集器及能量收集方法, 2021-08-27, 中国, CN202110998554.5.
5. 王路; 费振轩; 乔智霞; 李伟; 韩香广; 王骞; 李支康; 赵立波; 卢德江; 杨萍; 王久洪; 蒋庄德, 一种可批量化加工的振动能量收集摩擦纳米发电机结构, 2021-11-29, 中国, ZL202111434166.0.
6. 王路; 王骞; 李伟; 乔智霞; 韩香广; 费振轩; 赵立波; 李支康; 卢德江; 杨萍; 王永录; 蒋庄德, 一种可滑动磁耦合限幅综合拓频的压电振动能量收集器, 2021-11-30, 中国, ZL202111447188.0.
7. 前田龙太郎; 费振轩; 王路; 王骞; 段从升; 张俊龙; 赵立波; 韩香广; 蒋庄德, 用于人体运动能量收集的能量收集器及装置及方法, 2021-12-22, 中国, CN202111583234.X.
8. 蒋维乐、王路、毛琦等. 一种机械整流式压电悬臂梁振动能量收集器[P]，中国，发明专利，公开号：CN111313756A申请号：CN202010239455.4，申请日：2020-03-20，排名：学生第1.
9. 赵立波、王路、罗国希等. 一种面内双向振动体PZT能量收集器及能量收集方法和制备方法[P]，中国，发明专利，公开号：CN110518831A申请号：CN201910721415.0，申请日：2019-08-06，排名：学生第1.
10. 赵立波、王路、罗国希等. 一种均布应力压电简支梁振动能量收集器[P]，中国，发明专利，公开号：CN110492787A申请号：CN201910730976.7，申请日：2019-08-08，排名：学生第1.
11. 赵立波、黄琳雅、王路等. 一种多操作模式的压电黏度传感器芯片及其工作方法和制备方法[P]，中国，发明专利，公开号：CN111537396A申请号：CN202010335079.9 申请日：2020-04-24，排名：学生第2.
12. 赵立波; 贾琛; 罗国希; 于明智; 韩香广; 王路; 杨萍; 李支康; 高文迪; 陈瑶; 王久洪; 蒋庄德, 一种压阻式双轴加速度传感器芯片及其制备方法, 2021-02-03, 中国, CN202110150381.1.
13. 赵立波; 谭仁杰; 高文迪; 韩香广; 卢德江; 王路; 李敏; 董林玺; 杨萍; 林启敬; 蒋庄德, 一种基于SOI工艺的MEMS六轴力传感器芯片及其制备方法, 2021-12-23, 中国, CN202111595510.4.