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Divalent ion encapsulated nano titania on Ti metal as a bioactive surface with enhanced protein adsorption

Schematic representation of protein adsorption on chemically treated Ti Metal. [Display omitted] •Divalent ions such as Mg, Ca and Sr are incorporated into titanate nanostructures.•Heat treatment produce titania nanostructure containing Mg, Ca and Sr.•Surface treatment improves the apatite formation... Full description

Journal Title: Colloids and Surfaces B: Biointerfaces 01 July 2016, Vol.143, pp.213-223
Main Author: Anbazhagan, Esaitamil
Other Authors: Rajendran, Archana , Natarajan, Duraipandy , Kiran, M.S , Pattanayak, Deepak K
Format: Electronic Article Electronic Article
Language: English
Subjects:
SEM
SEM
ID: ISSN: 0927-7765 ; E-ISSN: 1873-4367 ; DOI: 10.1016/j.colsurfb.2016.03.009
Link: http://dx.doi.org/10.1016/j.colsurfb.2016.03.009
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recordid: elsevier_sdoi_10_1016_j_colsurfb_2016_03_009
title: Divalent ion encapsulated nano titania on Ti metal as a bioactive surface with enhanced protein adsorption
format: Article
creator:
  • Anbazhagan, Esaitamil
  • Rajendran, Archana
  • Natarajan, Duraipandy
  • Kiran, M.S
  • Pattanayak, Deepak K
subjects:
  • Ti Metal
  • Bioactivity
  • Protein Adsorption
  • Cell Attachment
  • SEM
  • Ti Metal
  • Bioactivity
  • Protein Adsorption
  • Cell Attachment
  • SEM
  • Engineering
  • Chemistry
  • Anatomy & Physiology
ispartof: Colloids and Surfaces B: Biointerfaces, 01 July 2016, Vol.143, pp.213-223
description: Schematic representation of protein adsorption on chemically treated Ti Metal. [Display omitted] •Divalent ions such as Mg, Ca and Sr are incorporated into titanate nanostructures.•Heat treatment produce titania nanostructure containing Mg, Ca and Sr.•Surface treatment improves the apatite formation in SBF compared to pure Ti metal.•Protein adsorption and bone cell attachment is observed. A novel approach on incorporation of divalent species such as Mg, Ca and Sr into the titania nanostructures formed on Ti metal surface and their comparative study on enhancement of bioactivity, protein adsorption and cell compatibility is reported. When treated with hydrogen peroxide, Ti metal forms hydrogen titanate. On subsequent treatment with Mg or Ca or Sr nitrate solutions, respective ions are incorporated into hydrogen titanate layer, and heat treatment leads to titania decorated with these ions. The resultant heat-treated samples...
language: eng
source:
identifier: ISSN: 0927-7765 ; E-ISSN: 1873-4367 ; DOI: 10.1016/j.colsurfb.2016.03.009
fulltext: fulltext
issn:
  • 0927-7765
  • 09277765
  • 1873-4367
  • 18734367
url: Link


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titleDivalent ion encapsulated nano titania on Ti metal as a bioactive surface with enhanced protein adsorption
creatorAnbazhagan, Esaitamil ; Rajendran, Archana ; Natarajan, Duraipandy ; Kiran, M.S ; Pattanayak, Deepak K
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subjectTi Metal ; Bioactivity ; Protein Adsorption ; Cell Attachment ; SEM ; Ti Metal ; Bioactivity ; Protein Adsorption ; Cell Attachment ; SEM ; Engineering ; Chemistry ; Anatomy & Physiology
descriptionSchematic representation of protein adsorption on chemically treated Ti Metal. [Display omitted] •Divalent ions such as Mg, Ca and Sr are incorporated into titanate nanostructures.•Heat treatment produce titania nanostructure containing Mg, Ca and Sr.•Surface treatment improves the apatite formation in SBF compared to pure Ti metal.•Protein adsorption and bone cell attachment is observed. A novel approach on incorporation of divalent species such as Mg, Ca and Sr into the titania nanostructures formed on Ti metal surface and their comparative study on enhancement of bioactivity, protein adsorption and cell compatibility is reported. When treated with hydrogen peroxide, Ti metal forms hydrogen titanate. On subsequent treatment with Mg or Ca or Sr nitrate solutions, respective ions are incorporated into hydrogen titanate layer, and heat treatment leads to titania decorated with these ions. The resultant heat-treated samples...
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