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Design, fabrication and electrochemi...

Zhou, Guangmin.

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Design, fabrication and electrochemical performance of nanostructured carbon based materials for high-energy lithium-sulfur batteries = next-generation high performance lithium-sulfur batteries /

Record Type:	Electronic resources : Monograph/item
Title/Author:	Design, fabrication and electrochemical performance of nanostructured carbon based materials for high-energy lithium-sulfur batteries/ by Guangmin Zhou.
Reminder of title:	next-generation high performance lithium-sulfur batteries /
Author:	Zhou, Guangmin.
Published:	Singapore :Springer Singapore : : 2017.,
Description:	xx, 115 p. :ill., digital ;24 cm.
[NT 15003449]:	Introduction -- Revealing Localized Electrochemical Transition of Sulfur in Optimal Sub-nanometer Confinement -- Flexible nanostructured sulfur-carbon nanotube cathode with high rate performance for Li-S batteries -- Fibrous Hybrid of Graphene and Sulfur Nanocrystals for High-Performance Lithium-Sulfur Batteries -- Long-life Li/polysulfide batteries with high sulfur loading enabled by lightweight three-dimensional nitrogen/sulfur-codoped graphene sponge -- Graphene-Pure-Sulfur Sandwich Structure for Ultrafast, Long-Life Lithium-Sulfur Batteries -- Research Challenges and Directions -- Summary and Conclusions.
Contained By:	Springer eBooks
Subject:	Lithium sulfur batteries - Materials. -
Online resource:	http://dx.doi.org/10.1007/978-981-10-3406-0
ISBN:	9789811034060

Design, fabrication and electrochemical performance of nanostructured carbon based materials for high-energy lithium-sulfur batteries = next-generation high performance lithium-sulfur batteries /
Zhou, Guangmin.

Design, fabrication and electrochemical performance of nanostructured carbon based materials for high-energy lithium-sulfur batteriesnext-generation high performance lithium-sulfur batteries /[electronic resource] :by Guangmin Zhou. - Singapore :Springer Singapore :2017. - xx, 115 p. :ill., digital ;24 cm. - Springer theses,2190-5053. - Springer theses..

Introduction -- Revealing Localized Electrochemical Transition of Sulfur in Optimal Sub-nanometer Confinement -- Flexible nanostructured sulfur-carbon nanotube cathode with high rate performance for Li-S batteries -- Fibrous Hybrid of Graphene and Sulfur Nanocrystals for High-Performance Lithium-Sulfur Batteries -- Long-life Li/polysulfide batteries with high sulfur loading enabled by lightweight three-dimensional nitrogen/sulfur-codoped graphene sponge -- Graphene-Pure-Sulfur Sandwich Structure for Ultrafast, Long-Life Lithium-Sulfur Batteries -- Research Challenges and Directions -- Summary and Conclusions.

This book focuses on the design, fabrication and applications of carbon-based materials for lithium-sulfur (Li-S) batteries. It provides insights into the localized electrochemical transition of the "solid-solid" reaction instead of the "sulfur-polysulfides-lithium sulfides" reaction through the desolvation effect in subnanometer pores; demonstrates that the dissolution/diffusion of polysulfide anions in electrolyte can be greatly reduced by the strong binding of sulfur to the oxygen-containing groups on reduced graphene oxide; manifests that graphene foam can be used as a 3D current collector for high sulfur loading and high sulfur content cathodes; and presents the design of a unique sandwich structure with pure sulfur between two graphene membranes as a very simple but effective approach to the fabrication of Li-S batteries with ultrafast charge/discharge rates and long service lives. The book offers an invaluable resource for researchers, scientists, and engineers in the field of energy storage, providing essential insights, useful methods, and practical ideas that can be considered for the industrial production and future application of Li-S batteries.

ISBN: 9789811034060

Standard No.: 10.1007/978-981-10-3406-0doiSubjects--Topical Terms:

3221296
Lithium sulfur batteries
--Materials.

LC Class. No.: TK2945.L58

Dewey Class. No.: 621.312424

Design, fabrication and electrochemical performance of nanostructured carbon based materials for high-energy lithium-sulfur batteries = next-generation high performance lithium-sulfur batteries /
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245 1 0 $a Design, fabrication and electrochemical performance of nanostructured carbon based materials for high-energy lithium-sulfur batteries $h [electronic resource] : $b next-generation high performance lithium-sulfur batteries / $c by Guangmin Zhou.
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300 $a xx, 115 p. : $b ill., digital ; $c 24 cm.
490 1 $a Springer theses, $x 2190-5053
505 0 $a Introduction -- Revealing Localized Electrochemical Transition of Sulfur in Optimal Sub-nanometer Confinement -- Flexible nanostructured sulfur-carbon nanotube cathode with high rate performance for Li-S batteries -- Fibrous Hybrid of Graphene and Sulfur Nanocrystals for High-Performance Lithium-Sulfur Batteries -- Long-life Li/polysulfide batteries with high sulfur loading enabled by lightweight three-dimensional nitrogen/sulfur-codoped graphene sponge -- Graphene-Pure-Sulfur Sandwich Structure for Ultrafast, Long-Life Lithium-Sulfur Batteries -- Research Challenges and Directions -- Summary and Conclusions.
520 $a This book focuses on the design, fabrication and applications of carbon-based materials for lithium-sulfur (Li-S) batteries. It provides insights into the localized electrochemical transition of the "solid-solid" reaction instead of the "sulfur-polysulfides-lithium sulfides" reaction through the desolvation effect in subnanometer pores; demonstrates that the dissolution/diffusion of polysulfide anions in electrolyte can be greatly reduced by the strong binding of sulfur to the oxygen-containing groups on reduced graphene oxide; manifests that graphene foam can be used as a 3D current collector for high sulfur loading and high sulfur content cathodes; and presents the design of a unique sandwich structure with pure sulfur between two graphene membranes as a very simple but effective approach to the fabrication of Li-S batteries with ultrafast charge/discharge rates and long service lives. The book offers an invaluable resource for researchers, scientists, and engineers in the field of energy storage, providing essential insights, useful methods, and practical ideas that can be considered for the industrial production and future application of Li-S batteries.
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