PVD-grown antibacterial Ag-TiN films on piezoelectric PVDF substrates for sensor applications
PVD-grown antibacterial Ag-TiN films on piezoelectric PVDF substrates for sensor applications
This work reports on Ti1 ? xAgx and Ag-TiNx electrodes deposited by dc/pulsed dc magnetron sputtering at room temperature on poly (vinylidene fluoride) (PVDF) with the purpose of developing sensors for prosthesis. In Ti1 ? xAgx electrodes, silver content was varied from 0–100 at.%; and for Ag-TiNx electrodes, the nitrogen content was varied between 34 and 43 at.% and the Ti/Ag ratio changed from 12.2 to 5.2. The antibacterial activity of the samples was assessed by the agar diffusion method. Interestingly, samples from the Ag-TiNx series presented antibacterial activity, in contrast to the samples from Ti1 ? xAgx series. XPS results showed that the as-deposited samples from the Ag-TiNx series exhibited silver clusters smaller than 4 nm. In order to deepen the results obtained, samples were analysed after the Halo test (antibacterial test), and XPS analyses showed the disappearance of these Ag clusters in agreement with the SEM results, which displayed a visible aggregation and a significant decrease in the number of Ag clusters, suggesting that silver nanoparticles aggregated and diffused through the agar killing bacteria or inhibiting their growth in the vicinity. All results show that Ag-TiNx electrodes are more promising candidates to be used in PVDF sensor protection than Ti1 ? xAgx electrodes.
See also: Corrigendum to "PVD-grown antibacterial Ag-TiN films on piezoelectric PVDF substrates for sensor applications" [Surf. Coat. Technol. 281 (2015) 117-124] DOI 10.1016/j.surfcoat.2015.09.057. Surface and Coatings Technology, 292, 161. https://doi.org/10.1016/j.surfcoat.2016.03.005
piezoelectric PVDF, Ag coatings, sputtering, sensor protection, antibacterial activity
117-124
Marques, S.M.
307165ab-6a0b-46e2-9f1c-59303bf985b8
Carvalho, I.
01df8778-5c90-46b1-83ee-4b244342ce46
Henriques, M.
bf6d4c06-3c86-4fe5-96f7-2e0618a8d25d
Polcar, T.
c669b663-3ba9-4e7b-9f97-8ef5655ac6d2
Carvalho, S.
fbc3e30b-4ce8-49db-9d1d-9fdd04750211
15 November 2015
Marques, S.M.
307165ab-6a0b-46e2-9f1c-59303bf985b8
Carvalho, I.
01df8778-5c90-46b1-83ee-4b244342ce46
Henriques, M.
bf6d4c06-3c86-4fe5-96f7-2e0618a8d25d
Polcar, T.
c669b663-3ba9-4e7b-9f97-8ef5655ac6d2
Carvalho, S.
fbc3e30b-4ce8-49db-9d1d-9fdd04750211
Marques, S.M., Carvalho, I., Henriques, M., Polcar, T. and Carvalho, S.
(2015)
PVD-grown antibacterial Ag-TiN films on piezoelectric PVDF substrates for sensor applications.
Surface and Coatings Technology, 281, .
(doi:10.1016/j.surfcoat.2015.09.057).
Abstract
This work reports on Ti1 ? xAgx and Ag-TiNx electrodes deposited by dc/pulsed dc magnetron sputtering at room temperature on poly (vinylidene fluoride) (PVDF) with the purpose of developing sensors for prosthesis. In Ti1 ? xAgx electrodes, silver content was varied from 0–100 at.%; and for Ag-TiNx electrodes, the nitrogen content was varied between 34 and 43 at.% and the Ti/Ag ratio changed from 12.2 to 5.2. The antibacterial activity of the samples was assessed by the agar diffusion method. Interestingly, samples from the Ag-TiNx series presented antibacterial activity, in contrast to the samples from Ti1 ? xAgx series. XPS results showed that the as-deposited samples from the Ag-TiNx series exhibited silver clusters smaller than 4 nm. In order to deepen the results obtained, samples were analysed after the Halo test (antibacterial test), and XPS analyses showed the disappearance of these Ag clusters in agreement with the SEM results, which displayed a visible aggregation and a significant decrease in the number of Ag clusters, suggesting that silver nanoparticles aggregated and diffused through the agar killing bacteria or inhibiting their growth in the vicinity. All results show that Ag-TiNx electrodes are more promising candidates to be used in PVDF sensor protection than Ti1 ? xAgx electrodes.
See also: Corrigendum to "PVD-grown antibacterial Ag-TiN films on piezoelectric PVDF substrates for sensor applications" [Surf. Coat. Technol. 281 (2015) 117-124] DOI 10.1016/j.surfcoat.2015.09.057. Surface and Coatings Technology, 292, 161. https://doi.org/10.1016/j.surfcoat.2016.03.005
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Accepted%20Manuscripts_Marques_PVD-grown.pdf
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More information
e-pub ahead of print date: 3 October 2015
Published date: 15 November 2015
Keywords:
piezoelectric PVDF, Ag coatings, sputtering, sensor protection, antibacterial activity
Organisations:
Engineering Science Unit
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Local EPrints ID: 383296
URI: http://eprints.soton.ac.uk/id/eprint/383296
ISSN: 0257-8972
PURE UUID: 4369b4d2-c530-4009-a724-189b9ae28d73
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Date deposited: 23 Oct 2015 14:01
Last modified: 15 Mar 2024 05:22
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Author:
S.M. Marques
Author:
I. Carvalho
Author:
M. Henriques
Author:
S. Carvalho
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