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    Journals >Piezoelectrics & Acoustooptics >Volume 46 >Issue 6 >Page 956 > Article
    • Piezoelectrics & Acoustooptics
    • Vol. 46, Issue 6, 956 (2024)
    Design and Simulation of a Dual-Resonant Hybrid Piezoelectric-Triboelectric Energy Harvester
    WEI Zusheng, CHEN Renwen, ZHENG Boyu, HU Chenyu, and CAO Wenbin
    Author Affiliations
  • State Key Lab of Mechanics and Control for Aerospace Structures, Nanjing University of Aeronautics and Astronautics, Nanjing 210016, China
    • show less
    DOI: 10.11977/j.issn.1004-2474.2024.06.019 Cite this Article
    WEI Zusheng, CHEN Renwen, ZHENG Boyu, HU Chenyu, CAO Wenbin. Design and Simulation of a Dual-Resonant Hybrid Piezoelectric-Triboelectric Energy Harvester[J]. Piezoelectrics & Acoustooptics, 2024, 46(6): 956 Copy Citation Text show less
    References

    [1] WEI C, JING X. A comprehensive review on vibration energy harvesting: Modelling and realization[J]. Renewable and Sustainable Energy Reviews,2017,74:1-18.

    [2] PRAJWAL K T, MANICKAVASAGAM K, SURESH R. A review on vibration energy harvesting technologies: analysis and technologies[J]. The European Physical Journal Special Topics,2022,231(8):1359-1371.

    [3] REZAEISARAY M, GOWINI E M, SAMEOTO D, et al. Low frequency piezoelectric energy harvesting at multi vibration mode shapes[J]. Sensors & Actuators A: Physical,2015,228:104-111.

    [5] ZHANG Y, WANG T, ZHANG A, et al. Electrostatic energy harvesting device with dual resonant structure for wideband random vibration sources at low frequency[J]. Review of Scientific Instruments,2016,87(12):125001.

    [6] FAN F, TIAN Z, WANG L. Flexible triboelectric generator[J]. Nano Energy,2012,1(2):328-334.

    [8] HAN M, ZHANG X, MENG B, et al. r-Shaped hybrid nanogenerator with enhanced piezoelectricity[J]. ACS Nano,2013,7(10):8554-8560.

    [9] LI Zhongjie, SAADATNIA Zia, YANG Zhengbao, et al. A hybrid piezoelectric-triboelectric generator for low-frequency and broad-bandwidth energy harvesting[J]. Energy Conversion and Management,2018,174:188-197.

    [10] SINGH H H, KUMAR D, KHARE N. A synchronous piezoelectric-triboelectric-electromagnetic hybrid generator for harvesting vibration energy[J]. Sustainable Energy & Fuels, 2021,5(1): 212-218.

    [11] LI H, TIAN C, DENG D Z. Energy harvesting from low frequency applications using piezoelectric materials[J]. Applied Physics Reviews,2014,1(4):041301.

    [12] WU Nan, BAO Bin, WANG Quan. Review on engineering structural designs for efficient piezoelectric energy harvesting to obtain high power output[J]. Engineering Structures,2021,235:112068.

    [13] WILLIAMS C B, YATES R B. Analysis of a micro-electric generator for microsystems[J]. Sensors and Actuators A: Physical,1996,52(1/3): 8-11.

    [15] NIU S, WANG S, LIN L, et al. Theoretical study of contact-mode triboelectric nanogenerators as an effective power source[J]. Energy & Environmental Science: EES,2013,6(12):3576-3583.

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    WEI Zusheng, CHEN Renwen, ZHENG Boyu, HU Chenyu, CAO Wenbin. Design and Simulation of a Dual-Resonant Hybrid Piezoelectric-Triboelectric Energy Harvester[J]. Piezoelectrics & Acoustooptics, 2024, 46(6): 956
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