Redox Mediators for Li–O2 Batteries: Status and Perspectives

Abstract

Li–O₂ batteries have received much attention due to their extremely large theoretical energy density. However, the high overpotentials required for charging Li–O₂ batteries lower their energy efficiency and degrade the electrolytes and carbon electrodes. This problem is one of the main obstacles in developing practical Li–O₂ batteries. To solve this problem, it is important to facilitate the oxidation of Li₂O₂ upon charging by using effective electrocatalysis. Using solid catalysts is not too effective for oxidizing the electronically isolating Li-peroxide layers. In turn, for soluble catalysts, red-ox mediators (RMs) are homogeneously dissolved in the electrolyte solutions and can effectively oxidize all of the Li₂O₂ precipitated during discharge. RMs can decompose solid Li₂O₂ species no matter their size, morphology, or thickness and thus dramatically increase energy efficiency. However, some negative side effects, such as the shuttle reactions of RMs and deterioration of the Li-metal occur. Therefore, it is necessary to study the activity and stability of RMs in Li–O₂ batteries in detail. Herein, recent studies related to redox mediators are reviewed and the mechanisms of redox reactions are illustrated. The development opportunities of RMs for this important battery technology are discussed and future directions are suggested.

Redox mediators (RMs) for Li−O₂ batteries have the potential to solve problems related to limited anodic stability, low round-trip efficiency, and limited cyclability, which are obstacles in the development of Li−O₂ batteries. The status and problems of RMs in Li−O₂ batteries are discussed, and the properties and mechanisms of three kinds of RMs: organic, organometallic, and halides, are described.

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