Journal article 23024 views
Ultra-fast sintered TiO2 films in dye-sensitized solar cells: phase variation, electron transport and recombination
Matt Carnie 
,
Cecile Charbonneau ,
Piers R. F Barnes,
Matthew Davies ,
Ian Mabbett ,
Trystan Watson ,
Brian C O'Regan,
David Worsley
,
Cecile Charbonneau ,
Piers R. F Barnes,
Matthew Davies ,
Ian Mabbett ,
Trystan Watson ,
Brian C O'Regan,
David Worsley
Journal of Materials Chemistry A, Volume: 1, Issue: 6, Pages: 2225 - 2230
Swansea University Authors:
Matt Carnie , Cecile Charbonneau , Matthew Davies , Ian Mabbett , Trystan Watson , David Worsley
Full text not available from this repository: check for access using links below.
DOI (Published version): 10.1039/C2TA01005D
Abstract
Ultra-fast sintered TiO2 films in dye-sensitized solar cells: phase variation, electron transport and recombination
| Published in: | Journal of Materials Chemistry A |
|---|---|
| ISSN: | 2050-7488 2050-7496 |
| Published: |
2013
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| Online Access: |
Check full text
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| URI: | https://cronfa.swan.ac.uk/Record/cronfa13797 |
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| Item Description: |
Published in the Journal of Materials Chemistry in 2013 (Impact factor 6.101). This is the first paper to demonstrate that high temperature sintering of TiO2 can be achieved without rutile phase transformation whilst maintaining electron transport properties. It has a direct benefit on the use of TiO2 in photovoltaics and on its use in the processing of TiO2 for water purification. This paper is the outcome of a collaborative venture with Imperial College Physics and Chemistry and Bangor University. This work informed the specifications and installation of a pilot manufacturing facility capable of reproducing this research at large areas (>1m2). |
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| College: |
Faculty of Science and Engineering |
| Issue: |
6 |
| Start Page: |
2225 |
| End Page: |
2230 |