Catalytic Performance of Graphene-Based Nanocomposites

Abstract

For the past decade, two-dimensional graphene-based nanomaterials are at risk of global interest in scientists and incentives to detect various potential application in energy storage, sensor, electronic device, and catalysis due to their outstanding chemical and physical feature, which has quickly improved. Recently, researchers very much interested have also targeted on carbon-based materials such as graphene oxide or graphene-based nanocomposite, which lead to the progress of several applications in catalysis, e.g., coupling reaction, oxidation, reduction, and organic catalytic reaction. There is a significant interrelation between structural shape with the catalytic performance of the nanocomposite materials, which is a central focus to develop a high-performance catalyst in the research area, which is discussed. The challenges of the future developments of such associated materials are proposed and discussed. In this study, the effective approaches of the synthesized methods and their recent development of various catalytic applications of graphene or graphene oxide nanocomposites have been discussed.