Metal–Organic Framework‐Based Materials for Advanced Sodium Storage: Development and Anticipation

Abstract As a pioneering battery technology, even though sodium‐ion batteries (SIBs) are safe, non‐flammable, and capable of exhibiting better temperature endurance performance than lithium‐ion batteries (LIBs), because of lower energy density and larger ionic size, they are not amicable for large‐scale applications. Generally, the electrochemical storage performance of a secondary battery can be improved by monitoring the composition and morphology of electrode materials. Because more is the intricacy of a nanostructured composite electrode material, more electrochemical storage applications would be expected. Despite the conventional methods suitable for practical production, the synthesis of metal–organic frameworks (MOFs) would offer enormous opportunities for next‐generation battery applications by delicately systematizing the structure and composition at the molecular level to store sodium ions with larger sizes compared with lithium ions. Here, the review comprehensively discusses the progress of nanostructured MOFs and their derivatives applied as negative and positive electrode materials for effective sodium storage in SIBs. The commercialization goal has prompted the development of MOFs and their derivatives as electrode materials, before which the synthesis and mechanism for MOF‐based SIB electrodes with improved sodium storage performance are systematically discussed. Finally, the existing challenges, possible perspectives, and future opportunities will be anticipated.