Metal-based heterogeneous electrocatalysts for reduction of carbon dioxide and nitrogen: mechanisms, recent advances and perspective

Abstract

In recent years, the electrochemical reduction of carbon dioxide (CO₂RR) and the reduction of nitrogen (NRR) have attracted increasing attention due to their potential to transform energy from renewable and clean sources to chemical energy stored in value-added chemicals, such as hydrocarbons, alcohols and ammonia (NH₃). Meanwhile, CO₂RR can also reduce the global carbon footprint and address global climate change, while NRR may significantly improve the energy efficiency of NH₃ production. However, because CO₂ and N₂ molecules are inert, electrocatalysts with low overpotentials, high selectivities and superior faradaic efficiencies (FE) are required to enhance these two kinetically slow reactions. For the first time, this review discusses the similarities and differences between CO₂RR and NRR in the following aspects: (1) fundamental theory of the reaction mechanisms and the corresponding catalyst design principles; (2) reaction systems and product analysis methods; (3) recent advances in heterogeneous electrocatalysts synthesized from different metals with various compositions, structures and morphologies. Much progress has been achieved to improve catalytic performance towards CO₂RR and NRR. Finally, an outlook of future developments for CO₂RR and NRR is proposed.