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Development of triboelectric nanogenerator and mechanical energy harvesting using argon ion-implanted kapton, zinc oxide and kapton

Title
Development of triboelectric nanogenerator and mechanical energy harvesting using argon ion-implanted kapton, zinc oxide and kapton
Authors
Sahu, ManishaSafranko, SilvijaHajra, SugatoPadhan, Aneeta ManjariZivkovic, PavoJokic, StelaKim, Hoe Joon
DGIST Authors
Sahu, Manisha; Safranko, Silvija; Hajra, Sugato; Padhan, Aneeta Manjari; Zivkovic, Pavo; Jokic, Stela; Kim, Hoe Joon
Issue Date
2021-10
Citation
Materials Letters, 301, 130290
Type
Article
Author Keywords
BiomechanicalIon implanationMetal oxidesTriboelectric
Keywords
ArgonAtomic force microscopyII-VI semiconductorsIon implantationPolyimidesSurface roughnessTriboelectricityX ray photoelectron spectroscopyZinc oxideArgon ionBiomechanicalElectrical outputEnergyIon implanationIon implantedMechanical energiesMetal-oxideNanogeneratorsTriboelectricNanogenerators
ISSN
0167-577X
Abstract
The triboelectric nanogenerator (TENG) is a widely used energy-harvesting unit for self-power applications. The electrical output performance of the TENG could be significantly improved by ion implantation and explore new triboelectric materials beyond the conventional triboelectric series. In this present work, the phase pure hydrothermally synthesized ZnO particles, argon ion-implanted Kapton acted as a positive triboelectric layer while pure Kapton behaved as a negative triboelectric layer. The atomic force microscopy (AFM) and Kelvin probe force microscopy (KPFM) were performed to investigate the surface roughness and surface potential of the triboelectric materials utilized in vertical contact mode TENG (I-TENG, abbreviated further). The elemental mapping and X-ray photoelectron spectroscopy (XPS) results suggested successful Argon-ion implantation upon Kapton. Finally, the I-TENG device was subjected to various forces to systematically depict its electrical output responses and power up a wrist-watch and calculator. © 2021
URI
http://hdl.handle.net/20.500.11750/14002
DOI
10.1016/j.matlet.2021.130290
Publisher
Elsevier BV
Related Researcher
  • Author Kim, Hoe Joon Nano Materials and Devices Lab
  • Research Interests MEMS/NEMS; Micro/Nano Sensors; Piezoelectric Devices; Nanomaterials; Heat Transfer; Atomic Force Microscope
Files:
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Collection:
Department of Robotics and Mechatronics EngineeringNano Materials and Devices Lab1. Journal Articles


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