2019
DOI: 10.1016/j.ceramint.2019.02.105
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Characterization of hydroxyapatite-tantalum pentoxide nanocomposite coating applied by electrophoretic deposition on Nitinol superelastic alloy

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Cited by 22 publications
(8 citation statements)
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“…1,[4][5][6] Among them, tantalum (Ta) has been used for implants in both orthopedics and dentistry. [7][8][9] Ta nanomaterials are increasingly being explored as alternatives to metals with good biocompatibility in the manufacture of implantable medical devices. 8,10 However, there are few studies on the bone regeneration induced by Ta nanoparticles (Ta NPs).…”
Section: Introductionmentioning
confidence: 99%
“…1,[4][5][6] Among them, tantalum (Ta) has been used for implants in both orthopedics and dentistry. [7][8][9] Ta nanomaterials are increasingly being explored as alternatives to metals with good biocompatibility in the manufacture of implantable medical devices. 8,10 However, there are few studies on the bone regeneration induced by Ta nanoparticles (Ta NPs).…”
Section: Introductionmentioning
confidence: 99%
“…This result can be interpreted considering a stabilization of tantalum NPs by means of gelatin chains due to electrostatic interactions. In fact, Type A gelatin used in this work has an isoelectric pH of 8.4, meaning that the biopolymer is positively charged under the composite preparation conditions (measured pH= 7.2) while tantalum NPs might be negatively charged at this pH value, as suggested in literature [39]. Rapid gelation of the hydrogel further stabilizes the nanoparticles dispersion, thus preventing aggregation phenomena, which is one of the main issues to be considered during the preparation process of nanocomposite hydrogels [40,41] The findings on homogeneous tantalum NPs dispersion were further confirmed by the topographic characterization of the composite surfaces by means of atomic force microscopy (Fig.…”
Section: Resultsmentioning
confidence: 66%
“…Composing the HA coating with Ti improved the coating density, which is due to the reaction bonds occurring during the sintering process (Figure ). By enhancing the density of the coating and subsequently reducing the amount of porosity in the material, the ions transformation from the corrosive environment to the coating will be substantially suppressed (Horandghadim & Khalil‐Allafi, ; Maleki‐Ghaleh & Khalil‐Allafi, ). In the composite specimens, by increasing the milling time of the HA composite powder from 2 to 4 hr, the amount of micro‐porosity and grain boundaries decreased, which resulted in increasing the electrochemical resistance in the composite coatings.…”
Section: Discussionmentioning
confidence: 99%