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An Effective Catholyte for Sulfide‐Based All‐Solid‐State Batteries Utilizing Gas Absorbents

Hyunbeen Choi, Sung‐Jin Cho, Yoon‐Seong Kim, Jun Sic Cho, Haesol Kim, Hyungjin Lee, Sumin Ko, Kyung Jun Kim, Sangmin Lee, Seung‐Tae Hong, Chang Hyuck Choi, Dong‐Hwa Seo, Soojin Park

2024Small11 citationsDOIOpen Access PDF

Abstract

All-solid-state batteries (ASSBs) possess the advantage of ensuring safety while simultaneously maximizing energy density, making them suitable for next-generation battery models. In particular, sulfide solid electrolytes (SSEs) are viewed as promising candidates for ASSB electrolytes due to their excellent ionic conductivity. However, a limitation exists in the form of interfacial side reactions occurring between the SSEs and cathode active materials (CAMs), as well as the generation of sulfide-based gases within the SSE. These issues lead to a reduction in the capacity of CAMs and an increase in internal resistance within the cell. To address these challenges, cathode composite materials incorporating zinc oxide (ZnO) are fabricated, effectively reducing various side reactions occurring in CAMs. Acting as a semiconductor, ZnO helps mitigate the rapid oxidation of the solid electrolyte facilitated by an electronic pathway, thereby minimizing side reactions, while maintaining electron pathways to the active material. Additionally, it absorbs sulfide-based gases, thus protecting the lithium ions within CAMs. In this study, the mass spectrometer is employed to observe gas generation phenomena within the ASSB cell. Furthermore, a clear elucidation of the side reactions occurring at the cathode and the causes of capacity reduction in ASSB are provided through density functional theory calculations.

Topics & Concepts

ElectrolyteSulfideMaterials scienceCathodeLithium (medication)Fast ion conductorIonic bondingNanotechnologyIonChemistryElectrodeOrganic chemistryPhysical chemistryMetallurgyEndocrinologyMedicineAdvanced Battery Materials and TechnologiesAdvanced battery technologies researchAdvancements in Battery Materials
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