电化学(中英文)2025,Vol.31Issue(1):1-30,30.DOI:10.61558/2993-074X.3498
用于光催化和电化学应用的纳米结构石墨氮化碳
Nanostructured Graphitic Carbon Nitride for Photocatalytic and Electrochemical Applications
摘要
Abstract
Graphitic carbon nitride(g-C3N4)exhibits great mechanical as well as thermal characteristics,making it a valuable ma-terial for use in photoelectric conversion devices,an accelerator for synthesis of organic compounds,an electrolyte for fuel cell applications or power sources,and a hydrogen storage substance and a fluorescence detector.It is fabricated using dif-ferent methods,and there is a variety of morphologies and nanostructures such as zero to three dimensions that have been designed for different purposes.Ther e are many reports about g-C3N4 in recent years,but a comprehensive review which covers nanostructure dimensions and their properties are missing.This review paper aims to give basic and comprehensive understanding of the photocatalytic and electrocatalytic usages of g-C3N4.It highlights the recent progress of g-C3N4 nano-structure designing by covering synthesis methods,dimensions,morphologies,applications and properties.Along with the summary,we will also discuss the challenges and prospects.Scientists,investigators,and engineers looking at g-C3N4 nanostructures for a variety of applications might find our review paper to be a useful resource.关键词
石墨氮化碳/氢析出反应/氧析出反应/燃料电池/可持续能源/电催化剂Key words
Graphitic carbon nitride/HER/OER/Fuel cell/Sustainable energy/electrocatalyst引用本文复制引用
Muhammad Abdul Qadeer,Iqra Fareed,Asif Hussain,Muhammad Asim Farid,Sadia Nazir,Faheem K.Butt,邹吉军,Muhammad Tahir,杜尚丰..用于光催化和电化学应用的纳米结构石墨氮化碳[J].电化学(中英文),2025,31(1):1-30,30.基金项目
M Tahir is funded by EU H2020 Marie Skłodows-ka-Curie Fellowship(1439425). (1439425)
