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Sustainable metal-organic framework co-engineered glass fiber separators for safer and longer cycle life of Li-S batteries

Sustainable metal-organic framework co-engineered glass fiber separators for safer and longer cycle life of Li-S batteries
Sustainable metal-organic framework co-engineered glass fiber separators for safer and longer cycle life of Li-S batteries
Most of the issues with making Li–S batteries are caused by the growth of Li dendrites and the movement of polysulfide. To solve both of these problems at the same time, this study describes the placement of Cu or Fe atoms on an ultrathin metal organic framework (MOF) nanosheet-based glass fiber separator for making Li–S batteries that are safe and last a long time. Cu or Fe atoms coordinated with oxygen atoms on the surface of ultrathin MOF nanosheets can greatly facilitate the movement of Li ions while acting as "traps" to stop polysulfide from moving around by introducing the Lewis acid-base interaction. Because of this, the Li–S cells with the Cu/MOF or Fe/MOF coatings on the glass fiber separator show long-term cycling stabilities with low-capacity decay of 0.080% and 0.057% per cycle over 400 cycles, respectively. Furthermore, Li–S cells assembled with the Cu/MOF and Fe/MOF separators show capacity retention of 985 and 1237 mAh g-1, respectively, after 400 cycles, indicating the potential of the Cu/MOF and Fe/MOF separators for practical applications.
Energy storage, Glass fiber, Li-S, MOF, Reversibility, Stability, Sustainable
0925-8388
Ponnada, Srikanth
269dcc54-70d2-4b0b-9bc6-0e81ad066c07
Mansoor, Mubashir
4ce95f70-3887-41fe-8f94-752d8fcceae1
Aslfattahi, Navid
85658f86-8363-4831-90d1-208408f29bfb
Baydogan, Nilgun
4d328502-5e60-4cfb-a7a7-52fd538955fd
Naskar, Susmita
5f787953-b062-4774-a28b-473bd19254b1
Sharma, Rakesh K.
41de7b23-301c-4826-bb8b-8d105c0e6260
Kiai, Maryam
ac4d8281-d794-4419-8111-07f5667f5257
Ponnada, Srikanth
269dcc54-70d2-4b0b-9bc6-0e81ad066c07
Mansoor, Mubashir
4ce95f70-3887-41fe-8f94-752d8fcceae1
Aslfattahi, Navid
85658f86-8363-4831-90d1-208408f29bfb
Baydogan, Nilgun
4d328502-5e60-4cfb-a7a7-52fd538955fd
Naskar, Susmita
5f787953-b062-4774-a28b-473bd19254b1
Sharma, Rakesh K.
41de7b23-301c-4826-bb8b-8d105c0e6260
Kiai, Maryam
ac4d8281-d794-4419-8111-07f5667f5257

Ponnada, Srikanth, Mansoor, Mubashir, Aslfattahi, Navid, Baydogan, Nilgun, Naskar, Susmita, Sharma, Rakesh K. and Kiai, Maryam (2023) Sustainable metal-organic framework co-engineered glass fiber separators for safer and longer cycle life of Li-S batteries. Journal of Alloys and Compounds, 941, [168962]. (doi:10.1016/j.jallcom.2023.168962).

Record type: Article

Abstract

Most of the issues with making Li–S batteries are caused by the growth of Li dendrites and the movement of polysulfide. To solve both of these problems at the same time, this study describes the placement of Cu or Fe atoms on an ultrathin metal organic framework (MOF) nanosheet-based glass fiber separator for making Li–S batteries that are safe and last a long time. Cu or Fe atoms coordinated with oxygen atoms on the surface of ultrathin MOF nanosheets can greatly facilitate the movement of Li ions while acting as "traps" to stop polysulfide from moving around by introducing the Lewis acid-base interaction. Because of this, the Li–S cells with the Cu/MOF or Fe/MOF coatings on the glass fiber separator show long-term cycling stabilities with low-capacity decay of 0.080% and 0.057% per cycle over 400 cycles, respectively. Furthermore, Li–S cells assembled with the Cu/MOF and Fe/MOF separators show capacity retention of 985 and 1237 mAh g-1, respectively, after 400 cycles, indicating the potential of the Cu/MOF and Fe/MOF separators for practical applications.

Text
JALCOM-D-22-15657_R2 - Accepted Manuscript
Restricted to Repository staff only until 19 January 2025.
Available under License Creative Commons Attribution Non-commercial No Derivatives.
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More information

Accepted/In Press date: 18 January 2023
e-pub ahead of print date: 19 January 2023
Published date: 25 April 2023
Keywords: Energy storage, Glass fiber, Li-S, MOF, Reversibility, Stability, Sustainable

Identifiers

Local EPrints ID: 478598
URI: http://eprints.soton.ac.uk/id/eprint/478598
DOI: doi:10.1016/j.jallcom.2023.168962
ISSN: 0925-8388
PURE UUID: 245e3929-7715-43e1-bd7c-c2e2b55f5f95
ORCID for Susmita Naskar: ORCID iD orcid.org/0000-0003-3294-8333

Catalogue record

Date deposited: 05 Jul 2023 17:21
Last modified: 17 Mar 2024 04:07

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Contributors

Author: Srikanth Ponnada
Author: Mubashir Mansoor
Author: Navid Aslfattahi
Author: Nilgun Baydogan
Author: Susmita Naskar ORCID iD
Author: Rakesh K. Sharma
Author: Maryam Kiai

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