Significant triboelectric enhancement using interfacial piezoelectric ZnO nanosheet layer

Narasimulu, Anand Arcot, Zhao, Pengfei, Soin, Navneet ORCID: 0000-0002-0196-2071, Prashanthi, K., Ding, Peng, Chen, Jinkai, Dong, Shurong, Chen, Li, Zhou, Erping ORCID: 0000-0002-0568-294X, Montemagno, Carlo D. and Luo, J. ORCID: 0000-0003-0310-2443 (2017) Significant triboelectric enhancement using interfacial piezoelectric ZnO nanosheet layer. Nano Energy, 40. pp. 471-480. ISSN 2211-2855

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Abstract

Utilising an interfacial piezoelectric ZnO nanosheet layer, a significant enhancement in the power density is reported for the triboelectric nanogenerators (TENG) based on phase inversion membranes of polyvinylidene fluoride (PVDF) and polyamide-6 (PA6). At an applied force of 80 N, the TENG device incorporating electrochemically deposited ZnO nanosheets produces an output voltage of ~ 625 V and a current density of ~ 40 mA m−2 (corresponding a charge density of 100.6 μC m−2), respectively; significantly higher than ~ 310 V and ~ 10 mA m−2 (corresponding a charge density of 77.45 μCm−2) for the pristine TENG device. The enhancement in the surface charge density provided by the interfacial piezoelectric ZnO layer is also reflected in the high piezoelectric coefficient d33 (−74 pm V−1) as compared to the pristine fluoropolymer membranes (−50 pm V−1). For tribo-negative membranes incorporating the interfacial ZnO layer, piezoelectric force microscopy measurements further show enhanced domain size which can be attributed to the interfacial dipoledipole interaction with the ferroelectric polarisation of PVDF, which promotes the alignment with the polar axis of ZnO. Under compressive stress, the piezoelectric potential thus produced in the ZnO nanosheets provides charge injection on to the surface of ZnSnO3-PVDF membrane, improving the charge density, which in-turn significantly enhances the power density from 0.11 to ~ 1.8 W/m2. The TENG devices thus fabricated using a facile electrochemical deposition and phase inversion technique show enhanced output power without the need for high electric field poling or external charge injection process by relying on the coupling of triboelectric and piezoelectric effects.

Item Type: Article
Uncontrolled Keywords: Triboelectric, Piezoelectric , ZnO nanosheet layer, Electrochemical deposition, Polarisation, Charge injection
Divisions: University of Bolton Research Centres > Institute for Materials Research and Innovation
Depositing User: Tracey Gill
Date Deposited: 30 Nov 2017 19:30
Last Modified: 20 Mar 2018 08:18
Identification Number: 10.1016/j.nanoen.2017.08.053
URI: http://ubir.bolton.ac.uk/id/eprint/1231

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