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Dip–spin coating of reticulated vitreous carbon with composite materials to act as an electrode for 3D microstructured lithium ion batteries

Dip–spin coating of reticulated vitreous carbon with composite materials to act as an electrode for 3D microstructured lithium ion batteries
Dip–spin coating of reticulated vitreous carbon with composite materials to act as an electrode for 3D microstructured lithium ion batteries
This paper describes a new and economic route for the formation of three dimensional (3D) microstructured battery electrodes using our “in house” developed dip–spin coating technique for depositing layers of active material onto reticulated vitreous carbon (RVC) substrates. These coatings are optimized composite materials containing carbon black and polymer binder to facilitate good electronic and ionic conductivities through the electrode. The application process begins by immersing the substrate in an ink followed by rapid spinning to provide a uniform coating with a well controlled mass loading. The performance of the electrodes was investigated in lithium ion cells as a function of the composition of the inks used and the number of dip–spin coating cycles.

Optimization of the ink composition, dip and spin parameters has improved the electrochemical performances of the electrodes to give state of the art footprint area specific capacities (>1000 ?A h cm?2) and high rate capabilities (nearly 50% degree of discharge at 25 C) in lithium half cells. This represents the first stage in the development of a full 3D microbattery system. Initial results have also shown the versatility of this approach in depositing other electrode materials by forming uniform layers of both TiO2 and LiMn2O4
0378-7753
250-259
Roberts, Matthew
b94a109b-e00e-4bd5-a3d0-cf918ab79c18
Huang, An Feng
93c469e8-6c28-4d93-a38b-a71f6c4cd558
Johns, Phil
c6e29a5c-2457-4c27-8355-96a396a6dc6c
Owen, John
067986ea-f3f3-4a83-bc87-7387cc5ac85d
Roberts, Matthew
b94a109b-e00e-4bd5-a3d0-cf918ab79c18
Huang, An Feng
93c469e8-6c28-4d93-a38b-a71f6c4cd558
Johns, Phil
c6e29a5c-2457-4c27-8355-96a396a6dc6c
Owen, John
067986ea-f3f3-4a83-bc87-7387cc5ac85d

Roberts, Matthew, Huang, An Feng, Johns, Phil and Owen, John (2013) Dip–spin coating of reticulated vitreous carbon with composite materials to act as an electrode for 3D microstructured lithium ion batteries. Journal of Power Sources, 224, 250-259. (doi:10.1016/j.jpowsour.2012.09.103).

Record type: Article

Abstract

This paper describes a new and economic route for the formation of three dimensional (3D) microstructured battery electrodes using our “in house” developed dip–spin coating technique for depositing layers of active material onto reticulated vitreous carbon (RVC) substrates. These coatings are optimized composite materials containing carbon black and polymer binder to facilitate good electronic and ionic conductivities through the electrode. The application process begins by immersing the substrate in an ink followed by rapid spinning to provide a uniform coating with a well controlled mass loading. The performance of the electrodes was investigated in lithium ion cells as a function of the composition of the inks used and the number of dip–spin coating cycles.

Optimization of the ink composition, dip and spin parameters has improved the electrochemical performances of the electrodes to give state of the art footprint area specific capacities (>1000 ?A h cm?2) and high rate capabilities (nearly 50% degree of discharge at 25 C) in lithium half cells. This represents the first stage in the development of a full 3D microbattery system. Initial results have also shown the versatility of this approach in depositing other electrode materials by forming uniform layers of both TiO2 and LiMn2O4

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More information

e-pub ahead of print date: January 2013
Published date: 15 February 2013
Organisations: Electrochemistry

Identifiers

Local EPrints ID: 348189
URI: http://eprints.soton.ac.uk/id/eprint/348189
DOI: doi:10.1016/j.jpowsour.2012.09.103
ISSN: 0378-7753
PURE UUID: d110fd0c-9642-486f-9588-32e9e90470a7
ORCID for John Owen: ORCID iD orcid.org/0000-0002-4938-3693

Catalogue record

Date deposited: 08 Feb 2013 09:55
Last modified: 15 Mar 2024 02:44

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Contributors

Author: Matthew Roberts
Author: An Feng Huang
Author: Phil Johns
Author: John Owen ORCID iD

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