The Emerging Electrochemical Activation Tactic for Aqueous Energy Storage: Fundamentals, Applications, and Future

The exploration of facile, low-cost, and universal synthetic strategies for high-performance aqueous energy storage is extremely urgent. The electrochemical activation tactic is an emerging synthetic technique that can turn inert or weakly active substances into highly active materials for aqueous energy storage via in situ or ex situ electrochemical treatment, which is receiving increasing attention due to its advantages of facile operation, variable control, high efficiency, flexibility, and wide applicability. This review first discusses the definition and general implementing methods of the electrochemical activation tactic, as well as the fundamental activation mechanisms, and then summarizes its applications in various aqueous systems, including rechargeable batteries and electrochemical capacitors with different charge carriers. The remaining challenges, potential solutions, and further perspectives are discussed finally. It is believed that this review will provide a timely summary and new inspiration for cutting-edge research on advanced aqueous energy storage devices.

Automated summary

This article reviews the application of electrochemical activation strategy in high-performance aqueous energy storage. The strategy can convert inert or weakly active substances into highly active materials for water-based energy storage through electrochemical treatment, offering advantages of easy operation, variable control, high efficiency, flexibility, and wide applicability.