lithium sulfur batteries

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Lithium Sulfur Batteries
Author :
Publisher : Wiley
Release Date :
ISBN 10 : 1119297869
Pages : 336 pages
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A guide to lithium sulfur batteries that explores their materials, electrochemical mechanisms and modelling and includes recent scientific developments Lithium Sulfur Batteries (Li-S) offers a comprehensive examination of Li-S batteries from the viewpoint of the materials used in their construction, the underlying electrochemical mechanisms and how this translates into the characteristics of Li-S batteries. The authors – noted experts in the field – outline the approaches and techniques required to model Li-S batteries. Lithium Sulfur Batteries reviews the application of Li-S batteries for commercial use and explores many broader issues including the development of battery management systems to control the unique characteristics of Li-S batteries. The authors include information onsulfur cathodes, electrolytes and other components used in making Li-S batteries and examine the role of lithium sulfide, the shuttle mechanism and its effects, and degradation mechanisms. The book contains a review of battery design and: Discusses electrochemistry of Li-S batteries and the analytical techniques used to study Li-S batteries Offers information on the application of Li-S batteries for commercial use Distills years of research on Li-S batteries into one comprehensive volume Includes contributions from many leading scientists in the field of Li-S batteries Explores the potential of Li-S batteries to power larger battery applications such as automobiles, aviation and space vehicles Written for academic researchers, industrial scientists and engineers with an interest in the research, development, manufacture and application of next generation battery technologies, Lithium Sulfur Batteries is an essential resource for accessing information on the construction and application of Li-S batteries.

Lithium Sulfur Batteries

A guide to lithium sulfur batteries that explores their materials, electrochemical mechanisms and modelling and includes recent scientific developments Lithium Sulfur Batteries (Li-S) offers a comprehensive examination of Li-S batteries from the viewpoint of the materials used in their construction, the underlying electrochemical mechanisms and how this translates into the

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Next generation Batteries with Sulfur Cathodes

Next-Generation Batteries with Sulfur Cathodes provides a comprehensive review of a modern class of batteries with sulfur cathodes, particularly lithium-sulfur cathodes. The book covers recent trends, advantages and disadvantages in Li-S, Na-S, Al-S and Mg-S batteries and why these batteries are very promising for applications in hybrid and electric vehicles.

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Alkali ion Batteries

This book covers selected topics in different aspects of science and technology of alkali-ion batteries written by experts from international scientific community. Through the 9 chapters, the reader will have access to the most recent research and development findings on alkali-ion batteries through original research studies and literature reviews. This book

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Li s Batteries  The Challenges  Chemistry  Materials  And Future Perspectives

Lithium-sulfur (Li-S) batteries give us an alternative to the more prevalent lithium-ion (Li-ion) versions, and are known for their observed high energy densities. Systems using Li-S batteries are in early stages of development and commercialization however could potentially provide higher, safer levels of energy at significantly lower cost. In this

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Lithium Sulfur Batteries

Lithium-sulfur (Li-S) batteries provide an alternative to lithium-ion (Li-ion) batteries and are showing promise for providing much higher energy densities. Systems utilizing Li-S batteries are presently under development and early stages of commercialization. This technology is being developed in order to provide higher, safer levels of energy at significantly lower

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Molecular Engineering Of High Performance Lithium Sulfur Batteries

The rechargeable Lithium-Sulfur (Li-S) battery is an attractive platform for high-energy, lowcost electrochemical energy storage due to the low cost of sulfur ($0.02/g) and the high theoretical energy density (2500 Wh/kg or 2800 Wh/L) of the sulfur cathode. Practical Li-S cells are limited by several fundamental issues, which derive from

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Metal Air and Metal Sulfur Batteries

Metal–air and metal–sulfur batteries (MABs/MSBs) represent one of the most efficient-energy storage technologies, with high round trip efficiency, a long life cycle, fast response at peak demand/supply of electricity, and decreased weight due to the use of atmospheric oxygen as one of the main reactants. This

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Lithium   Sulfur Batteries  A Toolbox for Lithium   Sulfur Battery Research  Methods and Protocols  Small Methods 7 2017

Abstract : Lithium–sulfur (Li–S) batteries are promising high energy density energy‐storage systems for powering electrical vehicles and unmanned aircraft. In article number1700134, Qiang Zhang and co‐workers summarize the advancements in the tools and protocols for studying Li–S batteries. Equipped with this comprehensive toolbox, researchers will be

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Cathode Materials for Lithium Sulfur Batteries  Design  Synthesis  and Electrochemical Performance

With the rapid development of electronic devices, portable electronics, and electric vehicles, the energy density and cycle life of LIBs are insufficient for the demands. Based on the reaction mechanisms, lithium-sulfur (Li-S) batteries have a high specific capacity of 1672 mAh/g, with a theoretical energy density up to 2600 Wh/Kg.

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Rechargeable Lithium Batteries

Rechargeable Lithium Batteries: From Fundamentals to Application provides an overview of rechargeable lithium batteries, from fundamental materials, though characterization and modeling, to applications. The market share of lithium ion batteries is fast increasing due to their high energy density and low maintenance requirements. Lithium air batteries have the potential for

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Advanced Battery Materials

Electrochemical energy storage has played important roles in energy storage technologies for portable electronics and electric vehicle applications. During the past thirty years, great progress has been made in research and development of various batteries, in term of energy density increase and cost reduction. However, the energy density has to

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Nanocarbon Electrochemistry

Provides a comprehensive introduction to the field of nanocarbon electrochemistry The discoveries of new carbon materials such as fullerene, graphene, carbon nanotubes, graphene nanoribbon, carbon dots, and graphdiyne have triggered numerous research advances in the field of electrochemistry. This book brings together up-to-date accounts of the recent progress, developments, and

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Lithium   Sulfur Batteries  Dodecylamine   Induced Synthesis of a Nitrogen   Doped Carbon Comb for Advanced Lithium   Sulfur Battery Cathodes  Adv  Mater  Interfaces 9 2018

Abstract : A novel dodecylamine micelle‐induced self‐assembling method for constructing N‐doped carbon combs from close‐packed hollow submicron carbon spheres is reported by Kaiming Liao, Zongping Shao and co‐workers in article number1701659 . The highly interconnected N ‐doped carbon comb can serve as a new type of sulfur

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Rational Design of Nanomaterials for Next Generation Lithium Sulfur Batteries

This dissertation focuses on the fundamental problems in the lithium-sulfur battery, which is one of the most promising candidates for next-generation electric energy storage. Despite years of research, the electrochemical process in lithium-sulfur batteries remains ambiguous. The first part of this dissertation discusses the geometric and electronic band structures of

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Poreless Separator and Electrolyte Additive for Lithium   Sulfur Batteries with High Areal Energy Densities

Abstract: Despite the attractive theoretical capacity of sulfur over 1600 mA h g −1, lithium–sulfur (Li–S) batteries suffer from insufficient cycle lives mainly due to fatal polysulfide dissolution. This chronic drawback becomes amplified at high areal capacities, especially close to commercial levels (i.e., >3 mA h cm −2 ). Here, we introduce

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