Metal Polysulfides as High Capacity Electrode Active Materials - Toward Superior Secondary Batteries Based on Sulfur Chemistry

Lithium/transition-metal polysulfide batteries are a promissing candidate for next-generation batteries with high energy densities. Transition metal polysulfides and lithium-or sodium-containing transition metal sulfides exhibit large reversible capacities based on multi electron processes, owing to the redox reactions of S in addition to the transition metal. This comprehensive paper aims to address the idea, research, and development of transition metal polysulfide electrode active materials and summarizes the author's views on the concept of transition metal polysulfide electrodes. Furthermore, the diversity of coordination structures and unique structural changes during charging and discharging will be discussed.

Automated summary

Lithium/transition-metal polysulfide batteries are promising candidates for next-generation high-energy density batteries, with large reversible capacities and multi-electron reaction characteristics. This comprehensive paper introduces the concept, research, and development of transition metal polysulfide electrode active materials, and summarizes the author's perspectives on this concept. Additionally, the diversity of coordination structures and unique structural changes during charging and discharging are discussed.