Recent Advances in Metal–Gas Batteries with Carbon‐Based Nonprecious Metal Catalysts

Abstract Metal–gas batteries draw a lot of attention due to their superiorities in high energy density and stable performance. However, the sluggish electrochemical reactions and associated side reactions in metal–gas batteries require suitable catalysts, which possess high catalytic activity and selectivity. Although precious metal catalysts show a higher catalytic activity, high cost of the precious metal catalysts hinders their commercial applications. In contrast, nonprecious metal catalysts complement the weakness of cost, and the gap in activity can be made up by increasing the amount of the nonprecious metal active centers. Herein, recent work on carbon‐based nonprecious metal catalysts for metal–gas batteries is summarized. This review starts with introducing the advantages of carbon‐based nonprecious metal catalysts, followed by a discussion of the synthetic strategy of carbon‐based nonprecious metal catalysts and classification of active sites, and finally a summary of present metal–gas batteries with the carbon‐based nonprecious metal catalysts is presented. The challenges and opportunities for carbon‐based nonprecious metal catalysts in metal–gas batteries are also explored.