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Impact-based piezoelectric vibration energy harvester
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Cited by:
- He, Jian & Fan, Xueming & Mu, Jiliang & Wang, Chao & Qian, Jichao & Li, Xiucheng & Hou, Xiaojuan & Geng, Wenping & Wang, Xiangdong & Chou, Xiujian, 2020. "3D full-space triboelectric-electromagnetic hybrid nanogenerator for high-efficient mechanical energy harvesting in vibration system," Energy, Elsevier, vol. 194(C).
- Johar, Muhammad Ali & Kang, Jin-Ho & Hassan, Mostafa Afifi & Ryu, Sang-Wan, 2018. "A scalable, flexible and transparent GaN based heterojunction piezoelectric nanogenerator for bending, air-flow and vibration energy harvesting," Applied Energy, Elsevier, vol. 222(C), pages 781-789.
- Yayla, Sedat & Ayça, Sümeyya & Oruç, Mehmet, 2020. "A case study on piezoelectric energy harvesting with using vortex generator plate modeling for fluids," Renewable Energy, Elsevier, vol. 157(C), pages 1243-1253.
- Bartosz Kawa & Krzysztof Śliwa & Vincent Ch. Lee & Qiongfeng Shi & Rafał Walczak, 2020. "Inkjet 3D Printed MEMS Vibrational Electromagnetic Energy Harvester," Energies, MDPI, vol. 13(11), pages 1-10, June.
- Kim, Jae Woo & Salauddin, Md & Cho, Hyunok & Rasel, M. Salauddin & Park, Jae Yeong, 2019. "Electromagnetic energy harvester based on a finger trigger rotational gear module and an array of disc Halbach magnets," Applied Energy, Elsevier, vol. 250(C), pages 776-785.
- Khazaee, Majid & Huber, John E. & Rosendahl, Lasse & Rezania, Alireza, 2021. "The investigation of viscous and structural damping for piezoelectric energy harvesters using only time-domain voltage measurements," Applied Energy, Elsevier, vol. 285(C).
- Wang, Shuai & Wang, Chaohui & Gao, Zhiwei & Cao, Hongyun, 2020. "Design and performance of a cantilever piezoelectric power generation device for real-time road safety warnings," Applied Energy, Elsevier, vol. 276(C).
- Zhao, Dong & Liu, Ying, 2020. "A prototype for light-electric harvester based on light sensitive liquid crystal elastomer cantilever," Energy, Elsevier, vol. 198(C).
- Aldawood, Ghufran & Nguyen, Hieu Tri & Bardaweel, Hamzeh, 2019. "High power density spring-assisted nonlinear electromagnetic vibration energy harvester for low base-accelerations," Applied Energy, Elsevier, vol. 253(C), pages 1-1.
- Abdelkareem, Mohamed A.A. & Xu, Lin & Ali, Mohamed Kamal Ahmed & Elagouz, Ahmed & Mi, Jia & Guo, Sijing & Liu, Yilun & Zuo, Lei, 2018. "Vibration energy harvesting in automotive suspension system: A detailed review," Applied Energy, Elsevier, vol. 229(C), pages 672-699.
- Jiqiang Liu & Junjie Yang & Ruofeng Han & Qisheng He & Dacheng Xu & Xinxin Li, 2020. "Improved Interface Circuit for Enhancing the Power Output of a Vibration-Threshold-Triggered Piezoelectric Energy Harvester," Energies, MDPI, vol. 13(15), pages 1-17, July.
- Hassan Elahi & Marco Eugeni & Paolo Gaudenzi, 2018. "A Review on Mechanisms for Piezoelectric-Based Energy Harvesters," Energies, MDPI, vol. 11(7), pages 1-35, July.
- Wang, Shuyun & Yang, Zemeng & Kan, Junwu & Chen, Song & Chai, Chaohui & Zhang, Zhonghua, 2021. "Design and characterization of an amplitude-limiting rotational piezoelectric energy harvester excited by a radially dragged magnetic force," Renewable Energy, Elsevier, vol. 177(C), pages 1382-1393.
- Shi, Ge & Liang, Xing & Xia, Yinshui & Jia, Shengyao & Hu, Xiangzhan & Yuan, Mingzhu & Xia, Huakang & Wang, Binrui, 2024. "A novel dual piezoelectric-electromagnetic energy harvester employing up-conversion technology for the capture of ultra-low-frequency human motion," Applied Energy, Elsevier, vol. 368(C).
- Marco Antonio Islas-Herrera & David Sánchez-Luna & Jorge Miguel Jaimes-Ponce & Daniel Andrés Córdova-Córdova & Christopher Iván Lorenzo-Alfaro & Daniel Hernández-Rivera, 2024. "Energy Harvester Based on Mechanical Impacts of an Oscillating Rod on Piezoelectric Transducers," Clean Technol., MDPI, vol. 6(3), pages 1-14, July.
- Maria Joseph Raj, Nirmal Prashanth & Alluri, Nagamalleswara Rao & Vivekananthan, Venkateswaran & Chandrasekhar, Arunkumar & Khandelwal, Gaurav & Kim, Sang-Jae, 2018. "Sustainable yarn type-piezoelectric energy harvester as an eco-friendly, cost-effective battery-free breath sensor," Applied Energy, Elsevier, vol. 228(C), pages 1767-1776.
- Luo, Anxin & Zhang, Yulong & Dai, Xiangtian & Wang, Yifan & Xu, Weihan & Lu, Yan & Wang, Min & Fan, Kangqi & Wang, Fei, 2020. "An inertial rotary energy harvester for vibrations at ultra-low frequency with high energy conversion efficiency," Applied Energy, Elsevier, vol. 279(C).
- Li, Zhongjie & Yang, Zhengbao & Naguib, Hani E., 2020. "Introducing revolute joints into piezoelectric energy harvesters," Energy, Elsevier, vol. 192(C).
- Bartosz Kawa & Chengkuo Lee & Rafał Walczak, 2022. "Inkjet 3D Printed MEMS Electromagnetic Multi-Frequency Energy Harvester," Energies, MDPI, vol. 15(12), pages 1-11, June.
- Gao, Mingyuan & Wang, Yuan & Wang, Yifeng & Wang, Ping, 2018. "Experimental investigation of non-linear multi-stable electromagnetic-induction energy harvesting mechanism by magnetic levitation oscillation," Applied Energy, Elsevier, vol. 220(C), pages 856-875.
- Gao, Mingyuan & Wang, Yuan & Wang, Yifeng & Yao, Ye & Wang, Ping & Sun, Yuhua & Xiao, Jieling, 2020. "Modeling and experimental verification of a fractional damping quad-stable energy harvesting system for use in wireless sensor networks," Energy, Elsevier, vol. 190(C).
- Zhang, Jinhui & Qin, Lifeng, 2019. "A tunable frequency up-conversion wideband piezoelectric vibration energy harvester for low-frequency variable environment using a novel impact- and rope-driven hybrid mechanism," Applied Energy, Elsevier, vol. 240(C), pages 26-34.
- Toyabur Rahman, M. & Sohel Rana, SM & Salauddin, Md. & Maharjan, Pukar & Bhatta, Trilochan & Kim, Hyunsik & Cho, Hyunok & Park, Jae Yeong, 2020. "A highly miniaturized freestanding kinetic-impact-based non-resonant hybridized electromagnetic-triboelectric nanogenerator for human induced vibrations harvesting," Applied Energy, Elsevier, vol. 279(C).
- He, Xianming & Wen, Quan & Lu, Zhuang & Shang, Zhengguo & Wen, Zhiyu, 2018. "A micro-electromechanical systems based vibration energy harvester with aluminum nitride piezoelectric thin film deposited by pulsed direct-current magnetron sputtering," Applied Energy, Elsevier, vol. 228(C), pages 881-890.
- Damien Hoareau & Gurvan Jodin & Abdo-rahmane Anas Laaraibi & Jacques Prioux & Florence Razan, 2023. "Available Kinetic Energy Sources on the Human Body during Sports Activities: A Numerical Approach Based on Accelerometers for Cantilevered Piezoelectric Harvesters," Energies, MDPI, vol. 16(6), pages 1-20, March.
- Tri Nguyen, Hieu & Genov, Dentcho A. & Bardaweel, Hamzeh, 2020. "Vibration energy harvesting using magnetic spring based nonlinear oscillators: Design strategies and insights," Applied Energy, Elsevier, vol. 269(C).