The energy harvesting performance of a flexible triboelectric-based electrospun PTFE/PVDF fibre
The energy harvesting performance of a flexible triboelectric-based electrospun PTFE/PVDF fibre
A triboelectric power generator/energy harvester is an attractive option for mechanical energy harvesting for smart, wearable applications. This paper reports on the fabrication and evaluation of the energy harvesting performance of Polytetrafluoroethylene/Polyvinylidene Fluoride (PTFE/PVDF) fibre prepared using a one-step electrospinning technique. Different concentrations (0, 1, 2, 3, and 4%wt.) of the 1 μm PTFE powder in the electrospun PVDF fibre were investigated. The electrospun fibre was assembled into a nonwoven fabric mat and tested in the vertical contact separation triboelectric mode by constructing a sandwich structure with electrodes in a book-shaped assembly. The voltage output from the cyclical compressive test for fibres with 4%wt. PTFE in PVDF was five times greater than it was for the 100% PVDF electrospun fibres. The influence of adding nylon fabric as a triboelectric donor material within the assembly was explored. The output of the 4%wt. PTFE/PVDF sample was then tested with and without nylon fabric at different frequencies (3–12 Hz). The results show a further 80% increase in the output voltage with the additional nylon fabric included, and the harvester was able to illuminate up to 95 LEDs.
White, Pattarinee
ef6aec5f-d14a-469b-bd91-51156aad9c0c
Bavykin, Dmitry
1e9fabfc-d078-4585-876f-85ff33b7eed5
Moshrefi-Torbati, Mohamed
65b351dc-7c2e-4a9a-83a4-df797973913b
Beeby, Stephen
ba565001-2812-4300-89f1-fe5a437ecb0d
20 January 2023
White, Pattarinee
ef6aec5f-d14a-469b-bd91-51156aad9c0c
Bavykin, Dmitry
1e9fabfc-d078-4585-876f-85ff33b7eed5
Moshrefi-Torbati, Mohamed
65b351dc-7c2e-4a9a-83a4-df797973913b
Beeby, Stephen
ba565001-2812-4300-89f1-fe5a437ecb0d
White, Pattarinee, Bavykin, Dmitry, Moshrefi-Torbati, Mohamed and Beeby, Stephen
(2023)
The energy harvesting performance of a flexible triboelectric-based electrospun PTFE/PVDF fibre.
Engineering Proceedings, 30 (1), [8].
(doi:10.3390/engproc2023030008).
Abstract
A triboelectric power generator/energy harvester is an attractive option for mechanical energy harvesting for smart, wearable applications. This paper reports on the fabrication and evaluation of the energy harvesting performance of Polytetrafluoroethylene/Polyvinylidene Fluoride (PTFE/PVDF) fibre prepared using a one-step electrospinning technique. Different concentrations (0, 1, 2, 3, and 4%wt.) of the 1 μm PTFE powder in the electrospun PVDF fibre were investigated. The electrospun fibre was assembled into a nonwoven fabric mat and tested in the vertical contact separation triboelectric mode by constructing a sandwich structure with electrodes in a book-shaped assembly. The voltage output from the cyclical compressive test for fibres with 4%wt. PTFE in PVDF was five times greater than it was for the 100% PVDF electrospun fibres. The influence of adding nylon fabric as a triboelectric donor material within the assembly was explored. The output of the 4%wt. PTFE/PVDF sample was then tested with and without nylon fabric at different frequencies (3–12 Hz). The results show a further 80% increase in the output voltage with the additional nylon fabric included, and the harvester was able to illuminate up to 95 LEDs.
Text
engproc-30-00008
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Published date: 20 January 2023
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Local EPrints ID: 501521
URI: http://eprints.soton.ac.uk/id/eprint/501521
ISSN: 2673-4591
PURE UUID: 992c6350-357b-49db-83a2-233bd438148e
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Date deposited: 03 Jun 2025 16:40
Last modified: 22 Aug 2025 02:26
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Author:
Pattarinee White
Author:
Stephen Beeby
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