Abstract
To meet the growing energy demand, it is imperative to explore novel materials for batteries and electrochemical chemistry beyond traditional lithium-ion batteries. These innovative batteries aim to achieve long cycle life, capacity, and enhanced energy densities. Rechargeable aluminum batteries (RABs) have gained attention due to their high safety, cost-effectiveness, straightforward manufacturing process, environmental friendliness, and extended lifespan. Despite aluminum having advantages as the anode in achieving high energy density, RAB technology is yet in its early stages, necessitating substantial efforts to overcome fundamental and practical challenges. This comprehensive review centers on the historical development of aluminum batteries, delve into the electrode development in non-aqueous RABs, and explore advancements in non-aqueous RAB technology. It also encompasses essential characterizations and simulation techniques crucial for understanding the underlying mechanisms. By addressing challenges in battery components, this review proposes feasible strategies to improve the electrochemical performance and safety of RABs and the development of hybrid lithium/aluminum batteries. In conclusion, it provides perspectives on endeavors in this field that aim to bridge the gap between laboratory research and real-world applications of RABs.
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