Rational Design of Low Cost and High Energy Lithium Batteries through Tailored Fluorine‐free Electrolyte and Nanostructured S/C Composite. Issue 17 (19th July 2018)

Record Type:: Journal Article
Title:: Rational Design of Low Cost and High Energy Lithium Batteries through Tailored Fluorine‐free Electrolyte and Nanostructured S/C Composite. Issue 17 (19th July 2018)
Main Title:: Rational Design of Low Cost and High Energy Lithium Batteries through Tailored Fluorine‐free Electrolyte and Nanostructured S/C Composite
Authors:: Agostini, M.
Lim, D.‐H.
Sadd, M.
Hwang, J.‐Y.
Brutti, S.
Heo, J. W.
Ahn, J. H.
Sun, Y. K.
Matic, A.
Abstract:: Abstract: We report a new Li–S cell concept based on an optimized F‐free catholyte solution and a high loading nanostructured C/S composite cathode. The Li2 S8 present in the electrolyte ensures both buffering against active material dissolution and Li + conduction. The high S loading is obtained by confining elemental S (≈80 %) in the pores of a highly ordered mesopores carbon (CMK3). With this concept we demonstrate stabilization of a high energy density and excellent cycling performance over 500 cycles. This Li–S cell has a specific capacity that reaches over 1000 mA h g −1, with an overall S loading of 3.6 mg cm −2 and low electrolyte volume (i.e., 10 μL cm −2 ), resulting in a practical energy density of 365 Wh kg −1 . The Li–S system proposed thus meets the requirements for large scale energy storage systems and is expected to be environmentally friendly and have lower cost compared with the commercial Li‐ion battery thanks to the removal of both Co and F from the overall formulation. Abstract : New system in town : A new Li–S cell concept based on an optimized F‐free catholyte solution and a high loading nanostructured C/S composite cathode is demonstrated with practical energy densities superior to commercially available Li‐ion systems. The Li–S system meets the requirements for large scale energy storage systems and is expected to be environmentally friendly and have lower cost compared with the commercial Li‐ion batteries.
Is Part Of:: ChemSusChem. Volume 11:Issue 17(2018)
Journal:: ChemSusChem
Issue:: Volume 11:Issue 17(2018)
Issue Display:: Volume 11, Issue 17 (2018)
Year:: 2018
Volume:: 11
Issue:: 17
Issue Sort Value:: 2018-0011-0017-0000
Page Start:: 2981
Page End:: 2986
Publication Date:: 2018-07-19
Subjects:: batteries -- composite -- electrolyte -- lithium-ion -- Li–S battery
Green chemistry -- Periodicals
Sustainable engineering -- Periodicals
Chemistry -- Periodicals
Chemical engineering -- Periodicals
660
Journal URLs:: http://onlinelibrary.wiley.com/journal/10.1002/%28ISSN%291864-564X ↗
http://onlinelibrary.wiley.com/ ↗
DOI:: 10.1002/cssc.201801017 ↗
Languages:: English
ISSNs:: 1864-5631
Deposit Type:: Legaldeposit
View Content:: Available online (eLD content is only available in our Reading Rooms) ↗
Physical Locations:: British Library DSC - 3133.482500
British Library DSC - BLDSS-3PM
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