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Expanded Nanofibrous Cellulose Electrode Binder: Declustering Lithium Polysulfides for Lean‐Electrolyte Li‒S Batteries

Hyunseok Moon, Jung‐Hui Kim, Nan Yao, Myeong‐Hwa Ryou, Xiang Chen, Yeonju Park, Sun‐Phil Han, Cheol Bak, Hyunseo Kang, Yong Min Lee, Young Mee Jung, Qiang Zhang, Sang‐Young Lee

2025Advanced Materials21 citationsDOIOpen Access PDF

Abstract

Abstract Despite their potential as an alternative to commercial lithium (Li)‒ion batteries, Li–sulfur (Li–S) batteries face challenges related to energy density limitations caused by the considerable amount of electrolyte required. Lean electrolytes have proven effective in mitigating this issue. However, they tend to exacerbate Li polysulfides (LiPS) clustering, resulting in incomplete S utilization and sluggish conversion kinetics. Here, 2,2,6,6‐tetramethylpiperidin‐1‐oxyl radical (TEMPO)‐oxidized cellulose nanofiber (TOCN) is presented as an expanded nanofibrous electrode binder for lean‐electrolyte Li‒S batteries. Owing to its 1D fibrous structure and expanded inter‐glucose chain distance, the TOCN binder offers more accessible active sites for intermolecular interactions with LiPS. Consequently, LiPS cluster formation is effectively suppressed even at a low TOCN binder content of 1 wt%, while a high S loading of 72 wt% is achieved. The resulting S cathode with the TOCN binder enables Li‒S cells to exhibit a remarkable specific capacity of 1221 mAh g sulfur −1 under constrained electrolyte conditions (low electrolyte‐to‐sulfur ratio of 2.0 µL mg sulfur −1 and low density of 0.927 g mL −1 ), yielding a high cell‐level energy density of 503 Wh kg −1 that surpasses those of previously reported S cathodes based on conventional synthetic polymer binders.

Topics & Concepts

ElectrolyteMaterials scienceCelluloseCathodeChemical engineeringLithium (medication)NanofiberSulfurElectrodeEnergy densityNanotechnologyChemistryMetallurgyMedicineEndocrinologyPhysicsTheoretical physicsPhysical chemistryEngineeringAdvanced Battery Materials and TechnologiesAdvancements in Battery MaterialsSupercapacitor Materials and Fabrication
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