MOFs materials as photocatalysts for CO2 reduction: Progress, challenges and perspectives

Abstract

Photocatalytic reduction of carbon dioxide (CO₂) presents a pivotal solution to address meteorological and ecological challenges. Currently, metal-organic frameworks (MOFs) with their crystalline porosity, adjustable structures, and diverse chemical functionalities have garnered significant attention in the realm of photocatalytic CO₂ reduction. This review provides a brief introduction to CO₂ reduction and MOF material and their applications in CO₂ reduction. Then, it undertakes a comprehensive examination of MOFs, summarizing their key attributes, including porosity, large surface area, structural multifunctionalities, and responsiveness to visible light, along with an analysis of heterojunctions and their methods of preparation. Additionally, it elucidates the fundamental principle of photocatalysis and CO₂ reduction, encompassing both half and overall reactions. Furthermore, the classification of MOF-based materials is explored, along with the proposed mechanism for CO₂ reduction and an update on recent developments in this field. Finally, this review outlines the challenges and potential opportunities for utilizing MOFs in CO₂ reduction, offering valuable insights to scholars seeking innovative approaches not only to enhance CO₂ reduction but also to advance other photocatalytic processes.