The role of uniformly distributed ZnO nanoparticles on cellulose nanofibers in flexible solid state symmetric supercapacitors
- 12 April 2021
- journal article
- research article
- Published by Royal Society of Chemistry (RSC) in Journal of Materials Chemistry A
- Vol. 9 (19), 11580-11594
- https://doi.org/10.1039/d1ta01644j
Abstract
Paper—a flexible, foldable, and cost-effective substrate made of one-dimensional cellulose nanofibers (1D-CNF)—is being extensively investigated as a promising aspirant to wearable as well as foldable energy storage appliances. However, the high density of flexible electrodes and structure degradation during charging and discharging remain major challenges, which limit their practical applications. Hence, efforts have been paid toward the fabrication of solid-state symmetric and flexible paper-like devices for higher capacitive performance. Nanosized uniform ZnO particles were attached on 1D-CNFs surface via a facile methodology, which significantly improved supercapacitive traits. When assembled into solid-state symmetrical supercapacitors (SSSCs), they exhibited remarkable electrochemical performance (220 F/g, 30.2 Wh/kg at 1 A/g) and excellent cycling stability (88% after 8000 cycles). In contrast, binder/additive-free paper-like flexible solid-state symmetrical supercapacitor devices, which were carbonized at 250 °C for 30 min, exhibited superior performance. In particular, the following were observed: higher specific capacitance (140 F/g of 1 A/g), prominent cycling performance (92%) after 8000 loops, and exceptional flexibility (i.e., no significant decay in the cyclic voltammetry current response/integral area after bending 100 cycles at 90°). This work will pave the way for green, lightweight, and flexible energy storage paper in wearable and foldable electronic devices.Funding Information
- Ministry of Trade, Industry and Energy (20184030202260)
- National Research Foundation of Korea (2019R1F1A1063622)
- Korea Institute of Energy Technology Evaluation and Planning (20184030202260)
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