Li-CO2 batteries represent a promising electrochemical system that integrates energy storage with CO2 conversion, making them one of the most prominent areas of current research. However, Li-CO2 batteries following the conventional Li2CO3-based pathway generally suffer from large overpotentials and low energy efficiency. Recently, an alternative Li2C2O4-based pathway has been reported, demonstrating great potential to reduce discharge/charge polarization and enhance reversibility. This review provides a comprehensive overview of Li-CO2 batteries based on the Li2C2O4 pathway. It begins with a discussion of the fundamental reaction mechanisms associated with Li2C2O4 formation and decomposition. Subsequently, recent progress in catalyst design and electrolyte optimization is summarized sequentially, particularly focusing on inherent correlations between interfacial electrochemical behaviors and battery performance. Finally, future research directions are outlined to guide further advancements in this emerging area.
Keywords: Li2C2O4; Li–CO2 battery; catalyst design; electrolyte optimization; reaction mechanism.
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