Issue 20, 2024

Recent progress in solar-driven CO2 reduction to multicarbon products

Abstract

Currently, most catalysts used for photoconverting carbon dioxide (CO2) typically produce C1 products. Achieving multicarbon (C2+) products, which are highly desirable due to their greater energy density and economic potential, still remains a significant challenge. This difficulty is primarily due to the kinetic hurdles associated with the C–C coupling step in the process. Given this, devising diverse strategies to accelerate C–C coupling for generating multicarbon products is requisite. Herein, we first give a classification of catalysts involved in the photoconversion of CO2 to C2+ fuels. We summarize metallic oxides, metallic sulfides, MXenes, and metal–organic frameworks as catalysts for CO2 photoreduction to C2+ products, attributing their efficacy to the inherent dual active sites facilitating C–C coupling. In addition, we survey covalent organic frameworks, carbon nitrides, metal phosphides, and graphene as cocatalysts for CO2 photoreduction to C2+ products, owing to the incorporated dual active sites that induce C–C coupling. In the end, we provide a brief conclusion and an outlook on designing new photocatalysts, understanding the catalytic mechanisms, and considering the practical application requirements for photoconverting CO2 into multicarbon products.

Graphical abstract: Recent progress in solar-driven CO2 reduction to multicarbon products

Article information

Article type
Tutorial Review
Submitted
26 Feb 2024
First published
13 Sep 2024

Chem. Soc. Rev., 2024,53, 9964-9975

Recent progress in solar-driven CO2 reduction to multicarbon products

M. Li, Z. Han, Q. Hu, W. Fan, Q. Hu, D. He, Q. Chen, X. Jiao and Y. Xie, Chem. Soc. Rev., 2024, 53, 9964 DOI: 10.1039/D4CS00186A

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