Novel bi-layered nanostructured SiO2/Ag-FHAp coating on biodegradable magnesium alloy for biomedical applications

Novel bi-layered nanostructured SiO2/Ag-FHAp coating on biodegradable magnesium alloy for biomedical applications

In this study, a novel bi-layered nanostructured silica (SiO2)/ silver-doped fluorohydroxyapatite (Ag-FHAp) coating was deposited on biodegradable Mg-1.2Ca-4.5Zn alloy via physical vapor deposition (PVD) combined with electrodeposition (ED). The nano-SiO2 underlayer had a compact columnar microstruc...

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Main Authors: Bakhsheshi-Rad, H. R., Hamzah, E., Ismail, A. F., Kasiri-Asgarani, M., Daroonparvar, M., Parham, S., Iqbal, N., Medraj, M.
Format: Article
Published: Elsevier Ltd. 2016
Subjects:
TP Chemical technology
Online Access:http://eprints.utm.my/id/eprint/70065/
http://dx.doi.org/10.1016/j.ceramint.2016.04.119
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spelling my.utm.700652017-11-22T00:45:09Z http://eprints.utm.my/id/eprint/70065/ Novel bi-layered nanostructured SiO2/Ag-FHAp coating on biodegradable magnesium alloy for biomedical applications Bakhsheshi-Rad, H. R. Hamzah, E. Ismail, A. F. Kasiri-Asgarani, M. Daroonparvar, M. Parham, S. Iqbal, N. Medraj, M. TP Chemical technology In this study, a novel bi-layered nanostructured silica (SiO2)/ silver-doped fluorohydroxyapatite (Ag-FHAp) coating was deposited on biodegradable Mg-1.2Ca-4.5Zn alloy via physical vapor deposition (PVD) combined with electrodeposition (ED). The nano-SiO2 underlayer had a compact columnar microstructure with thickness of around 1 µm while the Ag-FHAp overlayer presented large plate-like crystals accompanied with small rounded particles with thickness about 10 µm. Potentiodynamic polarization test exhibited that the double layer SiO2/Ag-FHAp coated Mg alloy has superior corrosion resistance compared to uncoated and single layer SiO2 coated samples. Contact angle measurement showed that Ag-FHAp coating over nano-SiO2 layers significantly increased surface wettability which is favorable for the attachment of cells. Cytotoxicity tests indicated that the nanostructured SiO2/Ag-FHAp coating enabled higher cell viability compared to nano-SiO2 coating and uncoated samples. In addition, bi-layer and single-layer coatings considerably improved the ability of cell attachment than that of the uncoated samples. The cell viability of coated and uncoated samples increased with increasing incubation time. The double layer SiO2/Ag-FHAp coated biodegradable Mg alloy possessed high corrosion resistance and cytocompatibility and can be considered as a promising material for implant applications. Elsevier Ltd. 2016 Article PeerReviewed Bakhsheshi-Rad, H. R. and Hamzah, E. and Ismail, A. F. and Kasiri-Asgarani, M. and Daroonparvar, M. and Parham, S. and Iqbal, N. and Medraj, M. (2016) Novel bi-layered nanostructured SiO2/Ag-FHAp coating on biodegradable magnesium alloy for biomedical applications. Ceramics International, 42 (10). pp. 11941-11950. ISSN 0272-8842 http://dx.doi.org/10.1016/j.ceramint.2016.04.119 DOI:10.1016/j.ceramint.2016.04.119
institution Universiti Teknologi Malaysia
building UTM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Malaysia
content_source UTM Institutional Repository
url_provider http://eprints.utm.my/
topic TP Chemical technology
spellingShingle TP Chemical technology
Bakhsheshi-Rad, H. R.
Hamzah, E.
Ismail, A. F.
Kasiri-Asgarani, M.
Daroonparvar, M.
Parham, S.
Iqbal, N.
Medraj, M.
Novel bi-layered nanostructured SiO2/Ag-FHAp coating on biodegradable magnesium alloy for biomedical applications
description In this study, a novel bi-layered nanostructured silica (SiO2)/ silver-doped fluorohydroxyapatite (Ag-FHAp) coating was deposited on biodegradable Mg-1.2Ca-4.5Zn alloy via physical vapor deposition (PVD) combined with electrodeposition (ED). The nano-SiO2 underlayer had a compact columnar microstructure with thickness of around 1 µm while the Ag-FHAp overlayer presented large plate-like crystals accompanied with small rounded particles with thickness about 10 µm. Potentiodynamic polarization test exhibited that the double layer SiO2/Ag-FHAp coated Mg alloy has superior corrosion resistance compared to uncoated and single layer SiO2 coated samples. Contact angle measurement showed that Ag-FHAp coating over nano-SiO2 layers significantly increased surface wettability which is favorable for the attachment of cells. Cytotoxicity tests indicated that the nanostructured SiO2/Ag-FHAp coating enabled higher cell viability compared to nano-SiO2 coating and uncoated samples. In addition, bi-layer and single-layer coatings considerably improved the ability of cell attachment than that of the uncoated samples. The cell viability of coated and uncoated samples increased with increasing incubation time. The double layer SiO2/Ag-FHAp coated biodegradable Mg alloy possessed high corrosion resistance and cytocompatibility and can be considered as a promising material for implant applications.
format Article
author Bakhsheshi-Rad, H. R.
Hamzah, E.
Ismail, A. F.
Kasiri-Asgarani, M.
Daroonparvar, M.
Parham, S.
Iqbal, N.
Medraj, M.
author_facet Bakhsheshi-Rad, H. R.
Hamzah, E.
Ismail, A. F.
Kasiri-Asgarani, M.
Daroonparvar, M.
Parham, S.
Iqbal, N.
Medraj, M.
author_sort Bakhsheshi-Rad, H. R.
title Novel bi-layered nanostructured SiO2/Ag-FHAp coating on biodegradable magnesium alloy for biomedical applications
title_short Novel bi-layered nanostructured SiO2/Ag-FHAp coating on biodegradable magnesium alloy for biomedical applications
title_full Novel bi-layered nanostructured SiO2/Ag-FHAp coating on biodegradable magnesium alloy for biomedical applications
title_fullStr Novel bi-layered nanostructured SiO2/Ag-FHAp coating on biodegradable magnesium alloy for biomedical applications
title_full_unstemmed Novel bi-layered nanostructured SiO2/Ag-FHAp coating on biodegradable magnesium alloy for biomedical applications
title_sort novel bi-layered nanostructured sio2/ag-fhap coating on biodegradable magnesium alloy for biomedical applications
publisher Elsevier Ltd.
publishDate 2016
url http://eprints.utm.my/id/eprint/70065/
http://dx.doi.org/10.1016/j.ceramint.2016.04.119
_version_ 1643656086195011584

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