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Enhanced Sb2S3 crystallisation by electric field induced silver doping

Enhanced Sb2S3 crystallisation by electric field induced silver doping
Enhanced Sb2S3 crystallisation by electric field induced silver doping
This work reveals that doping Ag into Sb2S3 substantially decreases its crystallisation temperature. We show that applying an electric field to Sb2S3 through Ag electrodes provides control of the crystallisation temperature and crystallisation rate. The crystal nuclei incubation time decreases substantially when the applied electric field is set to 200 kV/m. The applied electric field appears to force the Ag cations through the amorphous chalcogenide film resulting in Ag doped Sb2S3 filaments that extend from the cathode to the anode. This was confirmed by X-ray fluorescence composition mapping. Density functional theory molecular dynamics modelling of Ag doped Sb2S3 reveals that the diffusion constant of Ag is twice that of Sb or S over a wide temperature range, which implies that the Ag atoms are mobile in the amorphous Sb2S3 structure. The applied electric field provides a mechanism to enhance the crystallisation kinetics of Ag-doped Sb2S3.
Sb2S3, Chalcogenide, Dissolution, Crystallisation
0040-6090
80-85
Dong, W.
035492bb-53d7-4586-8262-9359ca27de93
Krbal, M.
670755ac-1829-42cd-840f-2b150f2a4988
Kalikka, J.
76a76f94-c9f5-4feb-807d-1607f2e18030
Chin, X.Y.
7fffda98-5dfa-4db1-92f4-a71d6bf61724
Gholipour, B.
c17bd62d-9df6-40e6-bc42-65272d97e559
Soci, C.
6c86324e-2968-4e90-9436-4a92a4b26cec
Fons, P.J.
68cbc354-670e-4ab0-bb91-e7409d0f9ac6
Mitrofanov, K.V.
22c1ea51-a82c-4ccc-9267-b03229c0748d
Chen, L.
4a9181ba-7b03-49e1-b7c4-9a8bec4a8bb2
Simpson, R.E.
d65b09fd-a7c9-405e-b6f8-2c1504d2e8e9
Dong, W.
035492bb-53d7-4586-8262-9359ca27de93
Krbal, M.
670755ac-1829-42cd-840f-2b150f2a4988
Kalikka, J.
76a76f94-c9f5-4feb-807d-1607f2e18030
Chin, X.Y.
7fffda98-5dfa-4db1-92f4-a71d6bf61724
Gholipour, B.
c17bd62d-9df6-40e6-bc42-65272d97e559
Soci, C.
6c86324e-2968-4e90-9436-4a92a4b26cec
Fons, P.J.
68cbc354-670e-4ab0-bb91-e7409d0f9ac6
Mitrofanov, K.V.
22c1ea51-a82c-4ccc-9267-b03229c0748d
Chen, L.
4a9181ba-7b03-49e1-b7c4-9a8bec4a8bb2
Simpson, R.E.
d65b09fd-a7c9-405e-b6f8-2c1504d2e8e9

Dong, W., Krbal, M., Kalikka, J., Chin, X.Y., Gholipour, B., Soci, C., Fons, P.J., Mitrofanov, K.V., Chen, L. and Simpson, R.E. (2016) Enhanced Sb2S3 crystallisation by electric field induced silver doping. Thin Solid Films, 616, 80-85. (doi:10.1016/j.tsf.2016.07.068).

Record type: Article

Abstract

This work reveals that doping Ag into Sb2S3 substantially decreases its crystallisation temperature. We show that applying an electric field to Sb2S3 through Ag electrodes provides control of the crystallisation temperature and crystallisation rate. The crystal nuclei incubation time decreases substantially when the applied electric field is set to 200 kV/m. The applied electric field appears to force the Ag cations through the amorphous chalcogenide film resulting in Ag doped Sb2S3 filaments that extend from the cathode to the anode. This was confirmed by X-ray fluorescence composition mapping. Density functional theory molecular dynamics modelling of Ag doped Sb2S3 reveals that the diffusion constant of Ag is twice that of Sb or S over a wide temperature range, which implies that the Ag atoms are mobile in the amorphous Sb2S3 structure. The applied electric field provides a mechanism to enhance the crystallisation kinetics of Ag-doped Sb2S3.

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More information

Accepted/In Press date: 28 July 2016
e-pub ahead of print date: 2 August 2016
Published date: 1 October 2016
Keywords: Sb2S3, Chalcogenide, Dissolution, Crystallisation
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Identifiers

Local EPrints ID: 413689
URI: http://eprints.soton.ac.uk/id/eprint/413689
DOI: doi:10.1016/j.tsf.2016.07.068
ISSN: 0040-6090
PURE UUID: e13760f5-6cd4-4bea-8828-01562c91ae5c

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Date deposited: 31 Aug 2017 16:31
Last modified: 15 Mar 2024 14:53

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Contributors

Author: W. Dong
Author: M. Krbal
Author: J. Kalikka
Author: X.Y. Chin
Author: B. Gholipour
Author: C. Soci
Author: P.J. Fons
Author: K.V. Mitrofanov
Author: L. Chen
Author: R.E. Simpson

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