Multifunctional approaches for safe structural batteries

Recent advancements in Li and Li-ion based energy storage resulted in development of novel electrode materials for higher energy density which are finding their applications in transportation. There appears to be a limitation in improvement of specific energy of the system based solely on design of material compositions for multivalent intercalation compounds. In addition, higher energy stored by the system implies need for addressing safety concerns especially when it comes to large automotive battery packs. New approaches for improvement of both energy density and safety of batteries are emerging, where multifunctionality of the materials and/or architectures is utilized. This article presents a review for such approaches from multifunctional current collectors to design of batteries capable of supporting mechanical loads and thus possessing ability to be used as a structural component.

Automated summary

Recent advancements in Li and Li-ion based energy storage have led to the development of novel electrode materials with higher energy density for applications in transportation. Improvements in specific energy of the system based solely on design of material compositions for multivalent intercalation compounds are limited, necessitating new approaches to enhance both energy density and safety of batteries.