Abstract

Graphitic carbon nitride (g-C3N4 ) exhibits great mechanical as well as thermal characteristics, making it a valuable material 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 different methods, and there is a variety of morphologies and nanostructures such as zero to three dimensions that have been designed for different purposes. There 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 nanostructure 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.