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Vaghasiya, JV. Mayorga-Martinez, CC. Sofer, Z. Pumera, M
Original Title
MXene-Based Flexible Supercapacitors: Influence of an Organic Ionic Conductor Electrolyte on the Performance
Type
journal article in Web of Science
Language
English
Original Abstract
Owing to the rise of miniaturized wearable electronic devices in the last decade, significant demands have arisen to obtain high-performance flexible supercapacitors (FSCs). Recently, a lot of research has been focused on developing smart components of FSCs and integrating them into new device configurations. In this work, FSCs based on a Ti3C2 nanosheet (NS) and an organic ionic conductor (OIC)-induced hydrogel as the electrode and the electrolyte, respectively, were used. The FSCs fabricated have three different configurations (sandwich, twisted fiber, and interdigitated) and a comparative study of their electrochemical performance was investigated in terms of cycle stability, bending stability, power density, and energy density. Finally, the experimental validation of practical application was conducted, which suggested excellent electrochemical stability of Ti3C2 NS FSCs for driven commercial electronic gadgets. This study presents mechanically robust, lightweight, high-performance FSCs, which can be assembled in different configurations for powering wearable electronic devices.
Keywords
wearable electronics; polymeric gel electrolyte; flexible energy storage device; two-dimensional materials; 2D materials; aqueous hydrogel; organic conductors
Authors
Vaghasiya, JV.; Mayorga-Martinez, CC.; Sofer, Z.; Pumera, M
Released
25. 11. 2020
Publisher
AMER CHEMICAL SOC
Location
WASHINGTON
ISBN
1944-8252
Periodical
ACS applied materials & interfaces
Year of study
12
Number
47
State
United States of America
Pages from
53039
Pages to
53048
Pages count
10
URL
https://pubs.acs.org/doi/10.1021/acsami.0c12879
BibTex
@article{BUT176894, author="Vaghasiya, JV. and Mayorga-Martinez, CC. and Sofer, Z. and Pumera, M", title="MXene-Based Flexible Supercapacitors: Influence of an Organic Ionic Conductor Electrolyte on the Performance", journal="ACS applied materials & interfaces", year="2020", volume="12", number="47", pages="53039--53048", doi="10.1021/acsami.0c12879", issn="1944-8252", url="https://pubs.acs.org/doi/10.1021/acsami.0c12879" }