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(Invited) Lithium – Sulfur Batteries
ECS Meeting Abstracts, 2022These days, Li-S battery has been arisen as one of the key energy storage technologies due to its high theoretical energy density compared to conventional lithium and sodium ion-based batteries. The present Li-S batteries suffer due to Li dendrite formation and capacity decay due to polysulfide dissolution effect, due to organic electrolytes used in
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A Cable‐Shaped Lithium Sulfur Battery
Advanced Materials, 2015A carbon nanostructured hybrid fiber is developed by integrating mesoporous carbon and graphene oxide into aligned carbon nanotubes. This hybrid fiber is used as a 1D cathode to fabricate a new cable-shaped lithium-sulfur battery. The fiber cathode exhibits a decent specific capacity and lifespan, which makes the cable-shaped lithium-sulfur battery ...
Xin, Fang +3 more
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Nano Energy, 2018
Lithium sulfur (Li-S) batteries have attracted considerable attention as the next generation rechargeable batteries owing to their much higher energy density in contrast to the conventional lithium ion batteries (LIBs).
Shaozhuan Huang +8 more
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Lithium sulfur (Li-S) batteries have attracted considerable attention as the next generation rechargeable batteries owing to their much higher energy density in contrast to the conventional lithium ion batteries (LIBs).
Shaozhuan Huang +8 more
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Designing Safe Electrolyte Systems for a High‐Stability Lithium–Sulfur Battery
, 2018Safety, nontoxicity, and durability directly determine the applicability of the essential characteristics of the lithium (Li)‐ion battery. Particularly, for the lithium–sulfur battery, due to the low ignition temperature of sulfur, metal lithium as the ...
Wei Chen +12 more
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A synergistic modification of polypropylene separator toward stable lithium–sulfur battery
, 2020Lithium sulfur batteries have widespread applications in many different fields ranging from electric vehicles to portable electronic devices. Design and development of advanced separators that can inhibit the polysulfide shuttling is critical for the ...
Wenyi Zhu +9 more
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Cycling Lithium–Sulfur Batteries
Russian Journal of Electrochemistry, 2002Cycling batteries with cathodes based on elementary sulfur in 0.1 M LiClO4 solution in sulfolane leads to a decrease in the depth of cathodic reduction of sulfur and the anodic oxidation of the reduction products. Increasing the polarization current density diminishes the cycling depth and efficiency.
V. S. Kolosnitsyn +3 more
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Energy Storage Materials, 2018
Lithium-sulfur batteries (LSBs) show promise as commercial batteries for electric vehicles (EV), portable devices and grid storage due to its low cost and high theoretical energy density.
M. Rana +6 more
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Lithium-sulfur batteries (LSBs) show promise as commercial batteries for electric vehicles (EV), portable devices and grid storage due to its low cost and high theoretical energy density.
M. Rana +6 more
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Molecular Electrocatalysts in Lithium‐Sulfur Batteries
ChemSusChemAbstractLithium‐sulfur (Li−S) batteries face challenges due to the sluggish reaction kinetics of sulfur species, which reduces sulfur utilization and thus lowers performance. Molecular electrocatalysts, with their clear and adequately exposed active sites, offer a reliable way to enhance reaction kinetics in lithium‐sulfur batteries.
Zhihua Wang +7 more
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Advances in Materials, 2018
Fast lithium ion transport with a high current density is critical for thick sulfur cathodes, stemming mainly from the difficulties in creating effective lithium ion pathways in high sulfur content electrodes.
Wei Chen +9 more
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Fast lithium ion transport with a high current density is critical for thick sulfur cathodes, stemming mainly from the difficulties in creating effective lithium ion pathways in high sulfur content electrodes.
Wei Chen +9 more
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Lithium-Sulfur Battery Development
ECS Meeting Abstracts, 2012Abstract not Available.
Sigita Urbonaite +2 more
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