Issue 10, 2019

Current-density dependence of Li2S/Li2S2 growth in lithium–sulfur batteries

Abstract

Lithium–sulfur (Li–S) batteries with a high theoretical energy density based on multi-electron redox reactions were strongly considered. The lithium disulfide/sulfide (Li2S2/Li2S, denoted as Li2S1/2) precipitation is critical to achieve high sulfur utilization. However, the kinetic effect on Li2S1/2 precipitation in a working battery has been rarely investigated. Herein, the current-density-dependent Li2S1/2 nucleation/growth was explored and such a dependence served as the guiding principle for the construction of high-sulfur-loading/content Li–S batteries. Generally, the Li2S1/2 nucleation density is proportional to two-third the power of the current density and the shift from a high to low current density alters the Li2S1/2 precipitation pathway from surface deposition to solution-mediated growth. The in-solution growth rate was found to be restricted by the mobilities of polysulfide intermediates and Li2S1/2 in conventional ether electrolytes. The rationalized guideline directed the design of a lightweight, high-surface-area, and open-pore conductive framework for sulfur cathodes, which enabled an extremely high sulfur content of 93.4 wt% in the whole electrode and a high capacity (1269 mA h g−1). The present work affords a kinetic understanding of the liquid–solid conversion in working Li–S batteries and optimization schemes for practical operation parameters.

Graphical abstract: Current-density dependence of Li2S/Li2S2 growth in lithium–sulfur batteries

Supplementary files

Article information

Article type
Communication
Submitted
20 Apr 2019
Accepted
12 Jun 2019
First published
12 Jun 2019

Energy Environ. Sci., 2019,12, 2976-2982

Current-density dependence of Li2S/Li2S2 growth in lithium–sulfur batteries

L. Kong, J. Chen, H. Peng, J. Huang, W. Zhu, Q. Jin, B. Li, X. Zhang and Q. Zhang, Energy Environ. Sci., 2019, 12, 2976 DOI: 10.1039/C9EE01257E

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