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Efficient Electrolytes for Lithiumâ€“Sulfur Batteries
descriptionPublicationkeyboard_double_arrow_right Article , Other literature type , Journal 2015 Italy Publisher:Frontiers Media SA
Authors: N. Angulakshmi; A. Manuel Stephan;
doi: 10.3389/fenrg.2015.00017 , 10.60692/0gf6m-9tv03 , 10.60692/n4dhh-a2m86
doi: 10.3389/fenrg.2015.00017 , 10.60692/0gf6m-9tv03 , 10.60692/n4dhh-a2m86
Cet article de synthèse porte principalement sur les électrolytes de pointe pour les batteries lithium-soufre. Différentes stratégies ont été employées pour résoudre les problèmes des batteries lithium-soufre à travers le monde. L'un d'eux est l'identification des électrolytes et l'optimisation de leurs propriétés pour les applications dans les batteries lithium-soufre. Les électrolytes pour batteries lithium-soufre sont généralement classés comme (i) électrolytes liquides non aqueux, (ii) liquides ioniques, (iii) polymère solide et (iv) électrolytes vitrocéramiques. Cet article présente les propriétés, les avantages et les limites de chaque type d'électrolytes. L'importance des additifs électrolytiques sur les performances électrochimiques des cellules Li-S est également discutée. Este artículo de revisión abarca principalmente los electrolitos de última generación para baterías de litio-azufre. Se han empleado diferentes estrategias para abordar los problemas de las baterías de litio-azufre en todo el mundo. Uno de ellos es la identificación de electrolitos y la optimización de sus propiedades para las aplicaciones en baterías de litio-azufre. Los electrolitos para las baterías de litio-azufre se clasifican ampliamente como (i) electrolitos líquidos no acuosos, (ii) líquidos iónicos, (iii) polímeros sólidos y (iv) electrolitos vitrocerámicos. Este artículo presenta las propiedades, ventajas y limitaciones de cada tipo de electrolitos. También se discute la importancia de los aditivos electrolíticos en el rendimiento electroquímico de las celdas de Li-S. This review article mainly encompasses on the state-of-the-art electrolytes for lithium–sulfur batteries. Different strategies have been employed to address the issues of lithium-sulfur batteries across the world. One among them is identification of electrolytes and optimization of their properties for the applications in lithium-sulfur batteries. The electrolytes for lithium-sulfur batteries are broadly classified as (i) non-aqueous liquid electrolytes, (ii) ionic liquids, (iii) solid polymer and (iv) glass-ceramic electrolytes. This article presents the properties, advantages and limitations of each type of electrolytes. Also the importance of electrolyte additives on the electrochemical performance of Li-S cells is discussed. تشمل مقالة المراجعة هذه بشكل أساسي على أحدث الشوارد لبطاريات الليثيوم والكبريت. تم استخدام استراتيجيات مختلفة لمعالجة قضايا بطاريات الليثيوم والكبريت في جميع أنحاء العالم. من بينها تحديد الشوارد وتحسين خصائصها للتطبيقات في بطاريات الليثيوم والكبريت. يتم تصنيف الشوارد لبطاريات الليثيوم والكبريت على نطاق واسع على أنها (1) شوارد سائلة غير مائية، (2) سوائل أيونية، (3) بوليمر صلب و (4) شوارد خزفية زجاجية. تعرض هذه المقالة خصائص ومزايا وقيود كل نوع من أنواع الشوارد. كما تمت مناقشة أهمية إضافات الإلكتروليت على الأداء الكهروكيميائي لخلايا Li - S.
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Frontiers in Energy Research
Article . 2015
Full-Text: https://www.frontiersin.org/articles/10.3389/fenrg.2015.00017/xml/nlm
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Frontiers in Energy Research
Article . 2015 . Peer-reviewed
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Frontiers in Energy Research
Article . 2015
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Open Access Repository
Article . 2015
Data sources: Open Access Repository
https://dx.doi.org/10.60692/0g...
Other literature type . 2015
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Frontiers in Energy Research
Article . 2015
Full-Text: https://www.frontiersin.org/articles/10.3389/fenrg.2015.00017/xml/nlm
Data sources: Frontiers
Frontiers in Energy Research
Article . 2015 . Peer-reviewed
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License: CC BY
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Frontiers in Energy Research
Article . 2015
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Open Access Repository
Article . 2015
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https://dx.doi.org/10.60692/0g...
Other literature type . 2015
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Other literature type . 2015
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An efficient bi-functional permselective separator coated with cubic type-Li7La3Zr2O12and activated carbon for lithium–sulfur batteries
descriptionPublicationkeyboard_double_arrow_right Article , Journal 2020Publisher:Royal Society of Chemistry (RSC)
Authors: N. Angulakshmi; R. Baby Dhanalakshmi; Paulina Półrolniczak; Mariusz Walkowiak; +4 Authors
N. Angulakshmi; R. Baby Dhanalakshmi; Paulina Półrolniczak; Mariusz Walkowiak; Pengfei Xie; Xiaohui Tian; Yingke Zhou; A. Manuel Stephan;
doi: 10.1039/d0se00594k
doi: 10.1039/d0se00594k
Controlling the shuttling of lithium polysulphides (LiPS) to enhance the utilization of elemental sulfur has been considered as an important issue to improve the energy density and coulombic efficiency of lithium–sulfur batteries.
Sustainable Energy &...arrow_drop_down
Sustainable Energy & Fuels
Article . 2020 . Peer-reviewed
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The following results are related to Energy Research. Are you interested to view more results? Visit OpenAIRE - Explore.

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Efficient Electrolytes for Lithiumâ€“Sulfur Batteries
descriptionPublicationkeyboard_double_arrow_right Article , Other literature type , Journal 2015 Italy Publisher:Frontiers Media SA
Authors: N. Angulakshmi; A. Manuel Stephan;
doi: 10.3389/fenrg.2015.00017 , 10.60692/0gf6m-9tv03 , 10.60692/n4dhh-a2m86
doi: 10.3389/fenrg.2015.00017 , 10.60692/0gf6m-9tv03 , 10.60692/n4dhh-a2m86
Cet article de synthèse porte principalement sur les électrolytes de pointe pour les batteries lithium-soufre. Différentes stratégies ont été employées pour résoudre les problèmes des batteries lithium-soufre à travers le monde. L'un d'eux est l'identification des électrolytes et l'optimisation de leurs propriétés pour les applications dans les batteries lithium-soufre. Les électrolytes pour batteries lithium-soufre sont généralement classés comme (i) électrolytes liquides non aqueux, (ii) liquides ioniques, (iii) polymère solide et (iv) électrolytes vitrocéramiques. Cet article présente les propriétés, les avantages et les limites de chaque type d'électrolytes. L'importance des additifs électrolytiques sur les performances électrochimiques des cellules Li-S est également discutée. Este artículo de revisión abarca principalmente los electrolitos de última generación para baterías de litio-azufre. Se han empleado diferentes estrategias para abordar los problemas de las baterías de litio-azufre en todo el mundo. Uno de ellos es la identificación de electrolitos y la optimización de sus propiedades para las aplicaciones en baterías de litio-azufre. Los electrolitos para las baterías de litio-azufre se clasifican ampliamente como (i) electrolitos líquidos no acuosos, (ii) líquidos iónicos, (iii) polímeros sólidos y (iv) electrolitos vitrocerámicos. Este artículo presenta las propiedades, ventajas y limitaciones de cada tipo de electrolitos. También se discute la importancia de los aditivos electrolíticos en el rendimiento electroquímico de las celdas de Li-S. This review article mainly encompasses on the state-of-the-art electrolytes for lithium–sulfur batteries. Different strategies have been employed to address the issues of lithium-sulfur batteries across the world. One among them is identification of electrolytes and optimization of their properties for the applications in lithium-sulfur batteries. The electrolytes for lithium-sulfur batteries are broadly classified as (i) non-aqueous liquid electrolytes, (ii) ionic liquids, (iii) solid polymer and (iv) glass-ceramic electrolytes. This article presents the properties, advantages and limitations of each type of electrolytes. Also the importance of electrolyte additives on the electrochemical performance of Li-S cells is discussed. تشمل مقالة المراجعة هذه بشكل أساسي على أحدث الشوارد لبطاريات الليثيوم والكبريت. تم استخدام استراتيجيات مختلفة لمعالجة قضايا بطاريات الليثيوم والكبريت في جميع أنحاء العالم. من بينها تحديد الشوارد وتحسين خصائصها للتطبيقات في بطاريات الليثيوم والكبريت. يتم تصنيف الشوارد لبطاريات الليثيوم والكبريت على نطاق واسع على أنها (1) شوارد سائلة غير مائية، (2) سوائل أيونية، (3) بوليمر صلب و (4) شوارد خزفية زجاجية. تعرض هذه المقالة خصائص ومزايا وقيود كل نوع من أنواع الشوارد. كما تمت مناقشة أهمية إضافات الإلكتروليت على الأداء الكهروكيميائي لخلايا Li - S.
downloaddonwloadFull-Text
Frontiers in Energy ...arrow_drop_down
Frontiers in Energy Research
Article . 2015
Full-Text: https://www.frontiersin.org/articles/10.3389/fenrg.2015.00017/xml/nlm
Data sources: Frontiers
Frontiers in Energy Research
Article . 2015 . Peer-reviewed
Data sources: Crossref
Frontiers in Energy Research
Article
License: CC BY
Data sources: UnpayWall
Frontiers in Energy Research
Article . 2015
Data sources: DOAJ
Frontiers in Energy Research
Journal
Data sources: Microsoft Academic Graph
Open Access Repository
Article . 2015
Data sources: Open Access Repository
https://dx.doi.org/10.60692/0g...
Other literature type . 2015
Data sources: Datacite
https://dx.doi.org/10.60692/n4...
Other literature type . 2015
Data sources: Datacite
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citeCite
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Frontiers in Energy ...arrow_drop_down
Frontiers in Energy Research
Article . 2015
Full-Text: https://www.frontiersin.org/articles/10.3389/fenrg.2015.00017/xml/nlm
Data sources: Frontiers
Frontiers in Energy Research
Article . 2015 . Peer-reviewed
Data sources: Crossref
Frontiers in Energy Research
Article
License: CC BY
Data sources: UnpayWall
Frontiers in Energy Research
Article . 2015
Data sources: DOAJ
Frontiers in Energy Research
Journal
Data sources: Microsoft Academic Graph
Open Access Repository
Article . 2015
Data sources: Open Access Repository
https://dx.doi.org/10.60692/0g...
Other literature type . 2015
Data sources: Datacite
https://dx.doi.org/10.60692/n4...
Other literature type . 2015
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Please grant OpenAIRE to access and update your ORCID works.
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An efficient bi-functional permselective separator coated with cubic type-Li7La3Zr2O12and activated carbon for lithium–sulfur batteries
descriptionPublicationkeyboard_double_arrow_right Article , Journal 2020Publisher:Royal Society of Chemistry (RSC)
Authors: N. Angulakshmi; R. Baby Dhanalakshmi; Paulina Półrolniczak; Mariusz Walkowiak; +4 Authors
N. Angulakshmi; R. Baby Dhanalakshmi; Paulina Półrolniczak; Mariusz Walkowiak; Pengfei Xie; Xiaohui Tian; Yingke Zhou; A. Manuel Stephan;
doi: 10.1039/d0se00594k
doi: 10.1039/d0se00594k
Controlling the shuttling of lithium polysulphides (LiPS) to enhance the utilization of elemental sulfur has been considered as an important issue to improve the energy density and coulombic efficiency of lithium–sulfur batteries.
Sustainable Energy &...arrow_drop_down
Sustainable Energy & Fuels
Article . 2020 . Peer-reviewed
License: Royal Society of Chemistry Licence to Publish
Data sources: Crossref
Sustainable Energy & Fuels
Journal
Data sources: Microsoft Academic Graph
linkLink to
shareshareShare
citeCite
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Please grant OpenAIRE to access and update your ORCID works.
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This Research product is the result of merged Research products in OpenAIRE.

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16
citations 16
popularity Top 10%
influence Average
impulse Top 10%
Powered by BIP!
more_vert
Sustainable Energy &...arrow_drop_down
Sustainable Energy & Fuels
Article . 2020 . Peer-reviewed
License: Royal Society of Chemistry Licence to Publish
Data sources: Crossref
Sustainable Energy & Fuels
Journal
Data sources: Microsoft Academic Graph
linkLink to
shareshareShare
citeCite
addClaim
Please grant OpenAIRE to access and update your ORCID works.
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This Research product is the result of merged Research products in OpenAIRE.

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Efficient Electrolytes for Lithiumâ€“Sulfur Batteries

An efficient bi-functional permselective separator coated with cubic type-Li7La3Zr2O12and activated carbon for lithium–sulfur batteries

Efficient Electrolytes for Lithiumâ€“Sulfur Batteries

An efficient bi-functional permselective separator coated with cubic type-Li7La3Zr2O12and activated carbon for lithium–sulfur batteries

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Efficient Electrolytes for Lithiumâ€“Sulfur Batteries

An efficient bi-functional permselective separator coated with cubic type-Li7La3Zr2O12and activated carbon for lithium–sulfur batteries

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Efficient Electrolytes for Lithiumâ€“Sulfur Batteries

An efficient bi-functional permselective separator coated with cubic type-Li7La3Zr2O12and activated carbon for lithium–sulfur batteries