Heterojunction catalysts for CO2–HCOOX interconversion cycles
Abstract
Conversion of CO2 to formic acid and/or formates (HCOOX) is a promising way to reduce carbon emissions. At the same time, HCOOX, as an excellent hydrogen storage material, can realize the safe storage and transportation of hydrogen energy. Therefore, the design of efficient catalysts for the closed-loop interconversion of CO2 and HCOOX is an important way to achieve dynamic carbon and energy cycling. A heterojunction catalyst as a kind of typical heterogeneous catalyst has the characteristics of convenient interface adjustment, a stable structure, and easy separation, which is preferred for practical uses. Intensive progress has been made in the exploration of heterojunction-based catalysts for CO2 hydrogenation and HCOOX decomposition reactions. This review comprehensively summarizes the recent advances in heterojunction-type catalysts for CO2–HCOOH interconversion under different driving forces, focusing on the design of electronic effects at the interface of heterojunction catalysts, as well as the role of heterojunction catalysts in different catalytic systems.
- This article is part of the themed collections: 2024 Materials Chemistry Frontiers HOT articles, 2024 Materials Chemistry Frontiers Review-type Articles and FOCUS: Recent progress on electrocatalytic CO2 reduction