| Literature DB >> 30648842 |
Yuan Wang1,2, Zheng Chang1, Zhichao Zhang3, Jie Lin1,2, Meng Qian1,2, Peng Wang1,2, Tianquan Lin1,4, Fuqiang Huang1,5,6.
Abstract
A facile approach of in situ electrochemical oxidation has been utilized to modify carbons, including activated carbon, mesoporous few-layer carbon, graphite, carbon fiber, and carbon nanotube, which induces oxygen-containing functional groups on its surface and simultaneously enhances its wettability, contributing to the improvement of capacitance. By this approach, the capacitance of commercialized activated carbon is increased by 86% in an acidic electrolyte, reaching 320 F g-1, of which more than 96% was maintained after 10 000 cyclic tests. The huge improvement stems from electrochemical redox reactions enabled by oxygen-associated groups, which do not adversely affect the porous structure and electrical conductivity. Such improvement will put carbon-based electrochemical capacitors into more practical application areas.Entities:
Keywords: carbons; electrochemical oxidation; enlarged and connected pores; oxygen-containing functional groups; supercapacitors
Year: 2019 PMID: 30648842 DOI: 10.1021/acsami.8b19071
Source DB: PubMed Journal: ACS Appl Mater Interfaces ISSN: 1944-8244 Impact factor: 9.229