Stabilization of Li-S batteries with a lean electrolyte: Via ion-exchange trapping of lithium polysulfides using a cationic, polybenzimidazolium binder

Pham CV, Liu L, Britton B, Walter M, Holdcroft S, Thiele S (2020)

Publication Type: Journal article

Publication year: 2020

Journal

Sustainable Energy & Fuels Royal Society of Chemistry

Book Volume: 4

Pages Range: 1180-1190

Journal Issue: 3

DOI: 10.1039/c9se01092k

Abstract

Implementing Li-S cells using high S loading and lean electrolyte content is considered the only viable way to achieve competitive specific energy for practical applications. However, under these conditions, the cell cycle life and performance are drastically reduced due to the severe polysulfide shuttle effect, electrolyte depletion, and sluggish electrochemical S conversion. Here we demonstrate that a cationic polymer binder can efficiently mitigate the polysulfide shuttle effect. The employed cationic polymer, poly[2,2′-(2,2′′,4,4′′,6,6′′-hexamethyl-p-terphenyl-3,3′′-diyl)-5,5′-bibenzimidazolium iodide] (HMT-PMBI(I^-)), possesses abundant benzimidazolium cations which interact with dissolved polysulfide anions when used as an active binder. Simultaneously, density functional theory calculations show that HMT-PMBI⁺ loosely binds with TFSI^- and Li⁺, allowing HMT-PMBI(I^-) to exchange its I^- anion with TFSI^- from the electrolyte salt to form HMT-PMBI(TFSI) containing loosely bound Li⁺. This forms a Li⁺ conducting phase within the cathode, allowing a reduced electrolyte content. Therefore, the novel active binder enables a stable cyclability of >440 cycles for Li-S batteries with relatively high S-loading (3-4 mg cm^-2) and a lean electrolyte content of 6 μl mgS^-1. As the cells prepared in this work use inexpensive, commercially available materials and a conventional doctor-blade fabrication approach, the results are highly relevant to practical applications.

Authors with CRIS profile

Simon Thiele Professur für Electrocatalytic Interface Engineering (HIERN)

Involved external institutions

Simon Fraser University

Canada (CA) Albert-Ludwigs-Universität Freiburg

Germany (DE)

How to cite

APA:

Pham, C.V., Liu, L., Britton, B., Walter, M., Holdcroft, S., & Thiele, S. (2020). Stabilization of Li-S batteries with a lean electrolyte: Via ion-exchange trapping of lithium polysulfides using a cationic, polybenzimidazolium binder. Sustainable Energy & Fuels, 4(3), 1180-1190. https://dx.doi.org/10.1039/c9se01092k

MLA:

Pham, Chuyen Van, et al. "Stabilization of Li-S batteries with a lean electrolyte: Via ion-exchange trapping of lithium polysulfides using a cationic, polybenzimidazolium binder." Sustainable Energy & Fuels 4.3 (2020): 1180-1190.

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