Litcius/Paper detail

Regulating Polysulfide Diffusion and Deposition via Rational Design of Core–Shell Active Materials in Li–S Batteries

Lanxiang Feng, Peng Yu, Xuewei Fu, Zhengmin Zhang, Kenneth Davey, Yu Wang, Zaiping Guo, Wei Yang

2022ACS Nano48 citationsDOI

Abstract

Polar host materials with strong adsorption capacity of polysulfides are designed to limit the shuttle effect in sulfur cathodes. However, a critical problem is to control diffusion and deposition of lithium polysulfides during cycling, which significantly impacts cycling stability and sulfur utilization. Here, we report using a sequential adsorption-guided self-assembly to design two types of core–shell sulfur particles with opposite polysulfide adsorption gradients to explore quantitatively the regulation of polysulfide diffusion and deposition. We show that a positive core–shell design of sulfur particles (PCSD@SP), i.e., polysulfide adsorption capability decreasing from the interior to the exterior of the host, is more effective in restricting polysulfide diffusion and regulating polysulfide deposition than the negative core–shell counterpart (NCSD@SP). As a result, the PCSD@SP electrode with a sulfur loading of 7 mg cm–2 exhibits a stable areal capacity of 6 mAh cm–2 over 130 cycles at 0.2C. At intermittent discharge/charge, the PCSD@SP electrode retains excellent stability compared with the NCSD@SP. We conclude that rational design of positive core–shell active materials can be used to regulate polysulfide diffusion and deposition to boost electrochemical reaction dynamics and performance. The reported findings will be of immediate benefit to a range of researchers in the design of high-performance lithium–sulfur batteries.

Topics & Concepts

PolysulfideSulfurDiffusionDeposition (geology)Materials scienceAdsorptionChemical engineeringLithium–sulfur batteryElectrochemistryLithium (medication)ElectrodeChemistryMetallurgyOrganic chemistryPhysical chemistryThermodynamicsElectrolyteSedimentPhysicsMedicinePaleontologyEngineeringEndocrinologyBiologyAdvanced Battery Materials and TechnologiesAdvancements in Battery MaterialsAdvanced battery technologies research