A road map on nanostructured surface tuning strategies of carbon fiber paper electrode: Enhanced electrocatalytic applications /
Title
A road map on nanostructured surface tuning strategies of carbon fiber paper electrode: Enhanced electrocatalytic applications /
Subject
Chemistry
Description
Journal of Science: Advanced Materials and Devices, Vol.7, Issue 3, ISSN No: 2468-2179.
Impressive characteristics of carbon fiber paper (CFP) electrodes propound greater demand in electrochemical applications. CFP has a network structure composed of interwoven carbon fibers (CFs). The macroporous structure, chemical inertness, high conductivity, low cost, corrosion resistance, good electrical properties, mechanical strength, and self-standing capabilities have led to the large-scale acceptance of CFP. This review appraises the current progress of CFP based electrodes for electrocatalytic applications in the field of electrochemical sensors, electrochemical capacitors, batteries, electro Fenton oxidation, electrooxidation of alcohols, water splitting, hydrogen evolution reaction (HER), and oxygen evolution reaction (OER) together with the different fabrication strategies on the CFP substrate in an organized manner.
Impressive characteristics of carbon fiber paper (CFP) electrodes propound greater demand in electrochemical applications. CFP has a network structure composed of interwoven carbon fibers (CFs). The macroporous structure, chemical inertness, high conductivity, low cost, corrosion resistance, good electrical properties, mechanical strength, and self-standing capabilities have led to the large-scale acceptance of CFP. This review appraises the current progress of CFP based electrodes for electrocatalytic applications in the field of electrochemical sensors, electrochemical capacitors, batteries, electro Fenton oxidation, electrooxidation of alcohols, water splitting, hydrogen evolution reaction (HER), and oxygen evolution reaction (OER) together with the different fabrication strategies on the CFP substrate in an organized manner.
Creator
Jose, Sandra., Rajeev, Rijo., Thadathil, Ditto Abraham., Varghese, Anitha., Hegde, Gurumurthy.
Publisher
ScienceDirect
Date
2022
Language
English
Type
Research Publication
Collection
Citation
Jose, Sandra., Rajeev, Rijo., Thadathil, Ditto Abraham., Varghese, Anitha., Hegde, Gurumurthy., “A road map on nanostructured surface tuning strategies of carbon fiber paper electrode: Enhanced electrocatalytic applications /,” CHRIST (Deemed To Be University) Institutional Repository, accessed November 21, 2024, https://archives.christuniversity.in/items/show/2126.