Unveiling the Formation and Evolution of the Cathode–Electrolyte Interphase in Lithium–Sulfur Batteries
Murilo Machado Amaral, Otavio Jovino Marques, André de Navarro de Miranda, Aline Carlos Oliveira, Gustavo Doubek, Gurpreet Singh, Hudson Zanin, Renato Garcia Freitas, Johanna Nelson Weker, Pablo Sebastian Fernandez

TL;DR
This study explores how the cathode–electrolyte interphase forms in lithium–sulfur batteries, offering insights to improve battery performance and longevity.
Contribution
The first real-time investigation of CEI formation in LSBs using in situ FTIR spectroscopy, revealing electrolyte decomposition and reduced species.
Findings
In situ FTIR spectroscopy directly tracked electrolyte species decomposition during CEI formation.
XAS confirmed sulfur species presence in the CEI after cycling.
EIS measurements showed structural interface changes at different states of charge.
Abstract
Lithium–sulfur batteries (LSBs) present high theoretical energy density, but their commercial viability is limited due to poor cyclability, primarily resulting from the shuttle effect. The formation and stability of the cathode–electrolyte interphase (CEI) are crucial for suppressing the shuttle effect and enhancing electrochemical reversibility. However, the CEI formation and evolution mechanism in LSBs remains unexplored. In this context, herein, the first real‐time investigation of the CEI using background‐subtracted in situ Fourier‐transform infrared (FTIR) spectroscopy is presented. The resulting FTIR spectra directly revealed electrolyte species consumption and reduced species’ emergence. Although these findings do not provide detailed compositional information about the CEI, the in situ FTIR results enabled direct tracking of electrolyte species undergoing decomposition…
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Taxonomy
TopicsAdvanced Battery Materials and Technologies · Advancements in Battery Materials · Advanced Battery Technologies Research
