Vanadium oxide bronzes as cathode active materials for non-lithium-based batteries

Vanadium oxide bronzes have recently been considered battery cathode materials owing to their inherent large interlayer distance for facile intercalation processes, mixed valences that can potentially provide high capacity, and good electronic conductivity. Vanadium oxide bronzes have been tested as cathodes mostly for lithium-based batteries but relatively fewer studies have been performed for non-lithium-based batteries. In this review, we look at the recent developments and approaches made by multiple battery research groups in using vanadium oxide bronzes as cathode active materials for non-lithium-based batteries. Several aspects of various vanadium oxide bronzes were elucidated in relation to the crystal structure and their interaction with other battery components. The electrochemical performances of batteries were then compared.

Automated summary

Vanadium oxide bronzes are considered as battery cathode materials due to their large interlayer distance, mixed valences, and good electronic conductivity. Research has primarily focused on lithium-based batteries, with fewer studies on non-lithium-based batteries. Recent developments in using vanadium oxide bronzes for non-lithium-based batteries have been explored by multiple battery research groups, focusing on crystal structure, interactions with other battery components, and comparative electrochemical performances.