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Electrochemical synthesis of 1D core-shell Si/TiO2 nanotubes for lithium ion batteries

Electrochemical synthesis of 1D core-shell Si/TiO2 nanotubes for lithium ion batteries
Electrochemical synthesis of 1D core-shell Si/TiO2 nanotubes for lithium ion batteries
Silicon negative electrode for lithium ion battery was designed in the form of self-organized 1D core-shell nanotubes to overcome shortcomings linked to silicon volume expansion upon lithiation/delithiation typically occurring with Si nanoparticles. The negative electrode was formed on TiO2nanotubes in two step electrochemical synthesis by means of anodizing of titanium and electrodeposition of silicon using ionic liquid electrolytes. Remarkably, it was found that the silicon grows perpendicularly to the z-axis of nanotube and therefore its thickness can be precisely controlled by the charge passed in the electrochemical protocol. Deposited silicon creates a continuous Si network on TiO2nanotubes without grain boundaries and particle-particle interfaces, defining its electrochemical characteristics under battery testing. In the core-shell system the titania nanotube play a role of volume expansion stabilizer framework holding the nanostructured silicon upon lithiation/delithiation. The nature of Si shell and presence of titania core determine stable performance as negative electrode tested in half cell of CR2032 coin cell battery.
Electrosynthesis, Nanotubes, Silicon, Silicon anode, Titania
0378-7753
243-248
Kowalski, Damian
b8ff506e-2d78-47fc-8b9c-6e5336323503
Mallet, Jeremy
99a096bc-7589-46d3-a40c-6bf91a8da79c
Thomas, Shibin
f9dd0751-582b-4c35-9725-36fbe08bbda8
Nemaga, Abirdu Woreka
87fe331d-7c18-4b12-8712-093e1c604691
Michel, Jean
e571570a-23af-46a4-b341-09cb64c55cc0
Guery, Claude
061071db-1700-4fa0-aad2-5a0b87315ac3
Molinari, Michael
811073e1-f1d5-4282-8016-ddecefbe2975
Morcrette, Mathieu
522cbbf9-ae51-4e68-b966-4932a0d1c039
Kowalski, Damian
b8ff506e-2d78-47fc-8b9c-6e5336323503
Mallet, Jeremy
99a096bc-7589-46d3-a40c-6bf91a8da79c
Thomas, Shibin
f9dd0751-582b-4c35-9725-36fbe08bbda8
Nemaga, Abirdu Woreka
87fe331d-7c18-4b12-8712-093e1c604691
Michel, Jean
e571570a-23af-46a4-b341-09cb64c55cc0
Guery, Claude
061071db-1700-4fa0-aad2-5a0b87315ac3
Molinari, Michael
811073e1-f1d5-4282-8016-ddecefbe2975
Morcrette, Mathieu
522cbbf9-ae51-4e68-b966-4932a0d1c039

Kowalski, Damian, Mallet, Jeremy, Thomas, Shibin, Nemaga, Abirdu Woreka, Michel, Jean, Guery, Claude, Molinari, Michael and Morcrette, Mathieu (2017) Electrochemical synthesis of 1D core-shell Si/TiO2 nanotubes for lithium ion batteries. Journal of Power Sources, 361, 243-248. (doi:10.1016/j.jpowsour.2017.07.003).

Record type: Article

Abstract

Silicon negative electrode for lithium ion battery was designed in the form of self-organized 1D core-shell nanotubes to overcome shortcomings linked to silicon volume expansion upon lithiation/delithiation typically occurring with Si nanoparticles. The negative electrode was formed on TiO2nanotubes in two step electrochemical synthesis by means of anodizing of titanium and electrodeposition of silicon using ionic liquid electrolytes. Remarkably, it was found that the silicon grows perpendicularly to the z-axis of nanotube and therefore its thickness can be precisely controlled by the charge passed in the electrochemical protocol. Deposited silicon creates a continuous Si network on TiO2nanotubes without grain boundaries and particle-particle interfaces, defining its electrochemical characteristics under battery testing. In the core-shell system the titania nanotube play a role of volume expansion stabilizer framework holding the nanostructured silicon upon lithiation/delithiation. The nature of Si shell and presence of titania core determine stable performance as negative electrode tested in half cell of CR2032 coin cell battery.

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More information

Accepted/In Press date: 2 July 2017
e-pub ahead of print date: 6 July 2017
Published date: September 2017
Keywords: Electrosynthesis, Nanotubes, Silicon, Silicon anode, Titania

Identifiers

Local EPrints ID: 424770
URI: http://eprints.soton.ac.uk/id/eprint/424770
DOI: doi:10.1016/j.jpowsour.2017.07.003
ISSN: 0378-7753
PURE UUID: a437fcaa-ef38-47bd-ad57-84c8c91c5912
ORCID for Shibin Thomas: ORCID iD orcid.org/0000-0002-7735-788X

Catalogue record

Date deposited: 05 Oct 2018 11:45
Last modified: 16 Mar 2024 04:37

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Contributors

Author: Damian Kowalski
Author: Jeremy Mallet
Author: Shibin Thomas ORCID iD
Author: Abirdu Woreka Nemaga
Author: Jean Michel
Author: Claude Guery
Author: Michael Molinari
Author: Mathieu Morcrette

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