From O2− to HO2−: Reducing By‐Products and Overpotential in Li‐O2 Batteries by Water Addition

The development of aprotic Li‐O₂ batteries, which are promising candidates for high gravimetric energy storage devices, is severely limited by superoxide‐related parasitic reactions and large voltage hysteresis. The fundamental reaction pathway of the aprotic Li‐O₂ battery can be altered by the addition of water, which changes the discharge intermediate from superoxide (O₂^?) to hydroperoxide (HO₂^?). The new mechanism involving HO₂^? intermediate realizes the two‐electron transfer through a single step, which significantly suppresses the superoxide‐related side reactions. Moreover, addition of water also triggers a solution‐based pathway that effectively reduces the voltage hysteresis. These discoveries offer a possible solution for desirable Li‐O₂ batteries free of aggressive superoxide species, highlighting the design strategy of modifying the reaction pathway for Li‐O₂ electrochemistry.