Sol-Gel Engineered MXene/Fe<sub>3</sub>O<sub>4</sub> as an Efficient Mediator to Suppress Polysulfide Shuttling and Accelerate Redox Kinetics. [PDF]
Shan Z +7 more
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Bridging Solution and Solid-State Mechanism: Confined Quasi-Solid-State Conversion in Li-S Batteries. [PDF]
Dutta P +7 more
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Optimization of Fluorinated Ether-Based Quasi-Solid Electrolyte Systems for Lithium-Sulfur Batteries. [PDF]
Senevirathna I +5 more
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Single-Atom Engineering in Room-Temperature Sodium-Sulfur Batteries. [PDF]
Kalleshappa B, Pumera M.
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Solvating magnesium polysulfides enables low-barrier speciation for magnesium sulfur batteries. [PDF]
Li J +5 more
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Interface Engineering Strategies for Shuttle Mitigation in Alkali Metal-Sulfur Batteries: A Comparative Review from Li-S to Na-S and K-S Systems. [PDF]
Chen Z, Yu Q, Wang W, Zhang J.
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Unity of Opposites between Soluble and Insoluble Lithium Polysulfides in Lithium–Sulfur Batteries
Advanced Materials, 2022AbstractRechargeable batteries based on Li–S chemistry show promise as being possible for next‐generation energy storage devices because of their ultrahigh capacities and energy densities. Research over the past decade has demonstrated that the morphology of lithium polysulfides (LPSs) in electrolytes (soluble or insoluble) plays a decisive role in ...
Zhenkang Wang +2 more
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Anion‐Involved Solvation Structure of Lithium Polysulfides in Lithium–Sulfur Batteries
Angewandte Chemie - International EditionAbstractLithium polysulfides (LiPSs) are pivotal intermediates involved in all the cathodic reactions in lithium–sulfur (Li−S) batteries. Elucidating the solvation structure of LiPSs is the first step for rational design of electrolyte and improving Li−S battery performances. Herein, we investigate the solvation structure of LiPSs and find that Li salt
Yun-Wei Song, Nan Yao, Shuai Feng
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