| Literature DB >> 28960934 |
Huiping Du1,2, Zhonghua Zhang1,2, Jianjiang He1,2, Zili Cui1, Jingchao Chai1,2, Jun Ma1, Ze Yang1, Changshui Huang1, Guanglei Cui1.
Abstract
Novel sulfur cathodes hold the key to the development of metal-sulfur batteries, the promising candidate of next-generation high-energy-storage systems. Herein, a fascinating sulfur cathode based on sulfide graphdiyne (SGDY) is designed with a unique structure, which is composed of a conducting carbon skeleton with high Li+ mobility and short sulfur energy-storing unites. The SGDY cathode can essentially avoid polysulfide dissolution and be compatible with commercially available carbonate-based electrolytes and Grignard reagent-based electrolytes (all phenyl complex (APC) type electrolytes). Both the assembled Li-S and Mg-S batteries exhibit excellent electrochemical performances including large capacity, superior rate capability, high capacity retention, and high Coulombic efficiency. More importantly, this is the first implementation case of a reliable Mg-S system based on nucleophilic APC electrolytes.Entities:
Keywords: high Li+ mobility; metal-sulfur batteries; short sulfide unites; shuttle effect; sulfide graphdiyne
Year: 2017 PMID: 28960934 DOI: 10.1002/smll.201702277
Source DB: PubMed Journal: Small ISSN: 1613-6810 Impact factor: 13.281