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Poudel, Tej P; Truong, Erica; Oyekunle, Ifeoluwa P; Deck, Michael J; Ogbolu, Bright; Chen, Yudan; Ojha, Pawan K; Gamaralalage, Thilina_N_D D; Patel, Sawankumar V; Jin, Yongkang; et al (, ACS Energy Letters)Free, publicly-accessible full text available January 10, 2026
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Oyekunle, Ifeoluwa P; Truong, Erica; Poudel, Tej P; Chen, Yudan; Jin, Yongkang; Ojelade, Islamiyat A; Deck, Michael J; Ogbolu, Bright; Islam, Md Mahinur; Ojha, Pawan K; et al (, Chemical Science)Li3.6In7S11.8Cl has a face-centered cubic arrangement of S2−/Cl−stabilized by Li+/In3+that form 3D ion conduction paths. The moisture stability and fast ion conduction make Li3.6In7S11.8Cl a promising electrolyte for solid-state batteries.more » « lessFree, publicly-accessible full text available January 1, 2026
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Chen, Yudan; Wang, Pengbo; Truong, Erica; Ogbolu, Bright; Jin, Yongkang; Oyekunle, Ifeoluwa; Liu, Haoyu; Islam, M Mahinur; Poudel, Tej; Huang, Chen; et al (, Angewandte Chemie International Edition)Abstract All‐solid‐state potassium batteries emerge as promising alternatives to lithium batteries, leveraging their high natural abundance and cost‐effectiveness. Developing potassium solid electrolytes (SEs) with high room‐temperature ionic conductivity is critical for realizing efficient potassium batteries. In this study, we present the synthesis of K2.98Sb0.91S3.53Cl0.47, showcasing a room‐temperature ionic conductivity of 0.32 mS/cm and a low activation energy of 0.26 eV. This represents an increase of over two orders of magnitude compared to the parent compound K3SbS4, marking the highest reported ionic conductivity for non‐oxide potassium SEs. Solid‐state39K magic‐angle‐spinning nuclear magnetic resonance on K2.98Sb0.91S3.53Cl0.47reveals an increased population of mobile K+ions with fast dynamics. Ab initio molecular dynamics (AIMD) simulations further confirm a delocalized K+density and significantly enhanced K+diffusion. This work demonstrates diversification of the anion sublattice as an effective approach to enhance ion transport and highlights K2.98Sb0.91S3.53Cl0.47as a promising SE for all‐solid‐state potassium batteries.more » « less
