This article is protected by copyright. For reproduction of material from all other RSC journals and books: For reproduction of material from all other RSC journals. If you are the author of this article you do not need to formally request permission Lithium-sulfur (Li-S) batteries have received intensive investigations over the past decade due to its great potential as a high-capacity rechargeable battery technology (Ma et al., 2015; Manthiram et al., 2015; Wild et al., 2015; Fang et al., 2017; Peng et al., 2017; Zheng et al., 2017; Chen et al., 2018). the whole article in a third party publication with the exception of reproduction Authors contributing to RSC publications (journal articles, books or book chapters) Please cite this article as doi: 10.1002/sstr.202000059. Here we report a method of creating lithium sulfide–carbon composites as cathode materials, which can be paired with high-capacity anodes other than metallic lithium. In particular, the scalability of these methods is mentioned, and the costs of the resulted Li2S products are also estimated and compared to the currently used cathode materials for Li‐ion batteries. Please enable JavaScript Lithium sulfide can be synthesized through carbothermic reduction of lithium sulfate according to the following equation: Li 2 SO 4 + x C → Li 2 S + x CO y (x = 1–4; y = 1–2) Please note: The publisher is not responsible for the content or functionality of any supporting information supplied by the authors. * Lithium–sulfur batteries are among the most promising candidates for next-generation rechargeable lithium batteries in view of recent progress on sulfur–carbon composite cathodes. Enter your email address below and we will send you your username, If the address matches an existing account you will receive an email with instructions to retrieve your username. Information about reproducing material from RSC articles with different licences The in situ synthesis approach allows facile, scalable synthesis of lithium sulfide –carbon composite materials that exhibit improved electrochemical properties. Li2S is typically produced by high temperature carbothermal reduction that creates powders, which then require extensive ball milling to produce the nano-sized materials desirable for battery applications. In the end, the commercially worthwhile research pathways for Li2S synthesis as well as the perspective on the practical production of Li2S are discussed. By continuing to browse this site, you agree to its use of cookies as described in our, I have read and accept the Wiley Online Library Terms and Conditions of Use. or in a thesis or dissertation provided that the correct acknowledgement is given S nanocrystals by reacting lithium sulfate with carbon precursors at high temperatures (820−900 °C) for >2 h.32,33 Elam et al. Lithium sulfide is dispersed in a porous carbon matrix, which serves to improve its electrical conductivity and provides a framework for sequestration of sulfur and lithium polysulfides. The lithium sulfide obtained according to the invention is used as a positive electrode composition in a galvanic element, for the synthesis of Li ion-conductive solids, in particular for the synthesis of glass, glass ceramics, or crystalline products, and particularly … Accepted, unedited articles published online and citable. E-mail: synthesized amorphous Li 2 S nanofilms using a vapor-phase atomic layer deposition via alternating exposure to lithium tert-butoxide and hydrogen sulfide.34 However, it seems challenging for these methods to produce Li 2 Fetching data from CrossRef. All rights reserved. To eliminate the potential safety hazard induced by the Li metal anode, high-capacity non-Li anodes, particularly silicon-based materials, have been sought as the alternative (Yang et al., 2010; Agostini et al., 2014; Cao et al., … contained in this article in third party publications Z. Yang, J. Guo, S. K. Das, Y. Yu, Z. Zhou, H. D. Abruña and L. A. Archer, School of Chemical and Biomolecular Engineering, Cornell University, Ithaca, NY 14853, USA, Department of Chemistry and Chemical Biology, Cornell University, Ithaca, NY 14853, USA, Instructions for using Copyright Clearance Center page. Any queries (other than missing content) should be directed to the corresponding author for the article. This may take some time to load. This article has been accepted for publication and undergone full peer review but has not been through the copyediting, typesetting, pagination and proofreading process, which may lead to differences between this version and the Version of Record. XX is the XXth reference in the list of references. This review will provide useful guidance for the selection of practical Li2S synthesis routes. Herein, the preparation methods for Li2S nanoparticles are summarized, including laboratory synthesis methods and potential large‐scale preparation routes; traditional industrial synthesis methods for commercially available Li2S are also attached as references. Lithium sulfide (Li2S) is an alternative cathode material for lithium‐sulfur batteries. However, further progress on such batteries is hampered by their concomitant need for a metallic lithium anode, which introduces new challenges associated with uneven electrodeposition and lithium dendrite formation. Lithium sulfide is prepared by treating lithium with sulfur. Lithium sulfide is dispersed in a porous carbon matrix, which serves to improve its electrical conductivity and provides a framework for sequestration of sulfur and lithium polysulfides. Department of Chemistry and Chemical Biology, Cornell University, Ithaca, NY 14853, USA. to reproduce figures, diagrams etc. The final edited and typeset version of record will appear in the future. with the reproduced material. it in a third party non-RSC publication you must of the whole article in a thesis or dissertation. to access the full features of the site or access our. Instructions for using Copyright Clearance Center page for details. Working off-campus? Please check your email for instructions on resetting your password. If you are not the author of this article and you wish to reproduce material from The in situ synthesis approach allows facile, scalable synthesis of lithium sulfide–carbon composite materials that exhibit improved electrochemical properties. Learn more. Corresponding authors, a article provided that the correct acknowledgement is given with the reproduced material. In all cases the Ref. This reaction is conveniently conducted in anhydrous ammonia. We also investigate the effect of lithium polysulfides dissolved in the electrolyte on the stability and cycling behavior of Li2S–carbon composite cathodes. is available on our Permission Requests page. However, commercially available Li2S powder delivers poor electrochemical performances due to the significant potential barrier during the first charging process, and therefore developing inexpensive synthesis route for nanosized Li2S with small diameter and low charging overpotential becomes the key to the construction of practical Li2S cathode. Learn about our remote access options, State Key Laboratory of Material Processing and Die and Mould Technology, School of Materials Science and Engineering, Huazhong University of Science and Technology, Wuhan, Hubei, 430074 China. laa25@cornell.edu, b Reproduced material should be attributed as follows: If the material has been adapted instead of reproduced from the original RSC publication Lithium sulfide (Li2S) nanocrystals (NCs) are critical materials used to make solid-state electrolytes and cathodes for emerging battery technologies. "Reproduced from" can be substituted with "Adapted from". Lithium sulfide (Li2S) is an alternative cathode material for lithium‐sulfur batteries.

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