Stabilization of microsized Sn anode with carbon coating and fluoroethylene carbonate additive for high-performance Li-ion batteries
Stabilization of microsized Sn anode with carbon coating and fluoroethylene carbonate additive for high-performance Li-ion batteries
Metallic Sn is one of the promising alternatives to graphite for lithium-ion batteries because of its high theoretical capacity, low lithium alloying voltage, and high conductivity. However, the huge volume expansion due to repeated alloying-dealloying makes it unsuitable for commercial applications. Herein, we have proposed a single-step synthesis of carbon-coated Sn by catalytic decomposition of acetylene over Sn microparticles using the chemical vapor deposition technique. This modification of Sn has successfully controlled the volume expansion due to the higher availability of pores, resulting in very low capacity fading. Further, adding fluoroethylene carbonate (FEC) as an electrolyte additive results in very high structural stability. Postmortem studies carried out have confirmed the same. A specific discharge capacity of 390 mAh g−1 at a high current density of 0.5A g−1 is achieved for Sn/C in the presence of FEC additive, along with high rate capability and cyclic stability. The structural reconstruction in the presence of FEC additive, with superior capacity and stability, can pave the way for further building of Sn-based anodes for next-generation high-performance LIBs.
Ganguly, Dipsikha
23ea92fb-71eb-4be1-bab8-d39dfc3eb1cc
Piriya, V.S. Ajay
e0ebec14-d54b-4860-bc7d-9958b134998f
Ramaprabhu, Sundara
2253a98c-9bd5-46d7-8ac1-25dadd9ed10d
23 December 2022
Ganguly, Dipsikha
23ea92fb-71eb-4be1-bab8-d39dfc3eb1cc
Piriya, V.S. Ajay
e0ebec14-d54b-4860-bc7d-9958b134998f
Ramaprabhu, Sundara
2253a98c-9bd5-46d7-8ac1-25dadd9ed10d
Ganguly, Dipsikha, Piriya, V.S. Ajay and Ramaprabhu, Sundara
(2022)
Stabilization of microsized Sn anode with carbon coating and fluoroethylene carbonate additive for high-performance Li-ion batteries.
Journal of Electroanalytical Chemistry, 929, [117066].
(doi:10.1016/j.jelechem.2022.117066).
Abstract
Metallic Sn is one of the promising alternatives to graphite for lithium-ion batteries because of its high theoretical capacity, low lithium alloying voltage, and high conductivity. However, the huge volume expansion due to repeated alloying-dealloying makes it unsuitable for commercial applications. Herein, we have proposed a single-step synthesis of carbon-coated Sn by catalytic decomposition of acetylene over Sn microparticles using the chemical vapor deposition technique. This modification of Sn has successfully controlled the volume expansion due to the higher availability of pores, resulting in very low capacity fading. Further, adding fluoroethylene carbonate (FEC) as an electrolyte additive results in very high structural stability. Postmortem studies carried out have confirmed the same. A specific discharge capacity of 390 mAh g−1 at a high current density of 0.5A g−1 is achieved for Sn/C in the presence of FEC additive, along with high rate capability and cyclic stability. The structural reconstruction in the presence of FEC additive, with superior capacity and stability, can pave the way for further building of Sn-based anodes for next-generation high-performance LIBs.
This record has no associated files available for download.
More information
Accepted/In Press date: 7 December 2022
e-pub ahead of print date: 10 December 2022
Published date: 23 December 2022
Identifiers
Local EPrints ID: 510377
URI: http://eprints.soton.ac.uk/id/eprint/510377
ISSN: 1572-6657
PURE UUID: 0a58be2d-bdb3-41eb-b84b-68c4e0a30640
Catalogue record
Date deposited: 30 Mar 2026 16:31
Last modified: 31 Mar 2026 02:11
Export record
Altmetrics
Contributors
Author:
Dipsikha Ganguly
Author:
V.S. Ajay Piriya
Author:
Sundara Ramaprabhu
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics