Carbon dot-based composites for catalytic applications

Abstract

Carbon dots (CDs) have been regarded as prospective carbon nanomaterials for catalytic applications due to their advantages such as low toxicity, strong and broad optical absorption, high chemical stability, and rapid electron transfer properties. To further improve their function, CD-based composites or hybrid materials have been developed by integrating CDs into different functional nanomaterials such as inorganic nanostructures, biomaterials, polymers and so on. This review presents and discusses the current development of CD-based composites. After the introduction of the methods for the preparation of CD-based composites, we focus on the description of the factors affecting the synthesis of CD-based composites. Lastly, the advantages of CD-based composites in catalytic applications such as photocatalysis, chemical catalysis, peroxidase-like catalysis, Fenton-like catalysis and electrocatalysis are described.