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Toward Robust Nanogenerators Using Aluminum Substrate
- Toward Robust Nanogenerators Using Aluminum Substrate
- Lee, S[Lee, Sangmin]; Hong, JI[Hong, Jung-Il]; Xu, C[Xu, Chen]; Lee, M[Lee, Minbaek]; Kim, D[Kim, Dongseob]; Lin, L[Lin, Long]; Hwang, W[Hwang, Woonbong]; Wang, ZL[Wang, Zhong Lin]
- DGIST Authors
- Hong, JI[Hong, Jung-Il]
- Issue Date
- Advanced Materials, 24(32), 4398-4402
- Article Type
- Al Substrate; Aluminum; Aluminum Substrate; Aluminum Substrates; Chemistry; Electrode; Electrodes; Energy Harvesting; Human; Human Motions; Human Walking; Humans; Integration; Mechanical Energies; Motion; Movement; Movement (Physiology); Nanogenerators; Nanotechnology; Output Voltages; Parallel/Serial Integration; Robust Nanogenerators; Substrates; Vibration; Vibrations (Mechanical); Zinc Oxide
- Nanogenerators (NG) have been developed to harvest mechanical energy from environmental sources such as vibration, human motion, or movement of automobiles. We demonstrate a robust and large-area NG based on a cost-effective Al substrate with the capability to be easily integrated in series and parallel for high-output performance. The output voltage and current density of the three-dimensionally integrated NG device reaches up to 3 V and 195 nA under human walking conditions. Copyright © 2012 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.
- Wiley-VCH Verlag
- Related Researcher
Hong, Jung Il
Quantum Electric & Magnetic Materials Laboratory
Electric and Magnetic Properties of Nanostructured Materials; Spintronics
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- Department of Emerging Materials ScienceQuantum Electric & Magnetic Materials Laboratory1. Journal Articles
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