Electrochemical carbon dioxide reduction reaction (CO 2 RR) possesses huge potential for achieving carbon neutrality by reducing greenhouse-gas CO 2 to value-added chemicals/fuels with sustainable energy. However, obtaining highly selective and long-term stable catalysts for CO 2 RR is still challenging.
Recently, metal-based Janus nanostructures (JNSs) have demonstrated unique advantages in addressing this issue in CO 2 RR via tandem catalysis. Herein, we systematically summarize the recently developed metal-based JNSs for electrocatalytic CO 2 RR. The synthesis methods are first introduced, including three representative methods (seed-mediated growth, dimerization, and selective-etching) and the strategy for constructing specific facets or unconventional phases in metal-based JNSs. Then, the application of metal-based JNSs in CO 2 RR toward the generation of single-carbon and multi-carbon products is elaborated, along with the corresponding catalytic mechanisms. The structural reconstruction of metal-based JNSs is also discussed in detail. Finally, researchers briefly summarize the recent advances and provide personal perspectives in this research direction.
Science Bulletin
Systematic review