2020
DOI: 10.1177/0022034519897003
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Inhibiting Corrosion of Biomedical-Grade Ti-6Al-4V Alloys with Graphene Nanocoating

Abstract: The identification of metal ions and particles in the vicinity of failed implants has raised the concern that biomedical titanium alloys undergo corrosion in healthy and infected tissues. Various surface modifications and coatings have been investigated to prevent the deterioration and biocorrosion of titanium alloys but so far with limited success. Graphene is a cytocompatible atom-thick film made of carbon atoms. It has a very high surface area and can be deposited onto metal objects with complex shapes. As … Show more

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Cited by 38 publications
(12 citation statements)
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“…For example, Raman mappings confirmed that the graphene nanocoating covering the Biomedical-Grade Ti-6Al-4V alloys showed high structural stability and resistance to mechanical stress and chemical degradation, maintaining >99% coverage after corrosion [ 104 ]. Raman spectroscopies have been used to study dental materials were mostly find the degree of conversion (DC) of dental composites, adhesives and setting reaction of cements [ 103 ].…”
Section: Raman Spectroscopymentioning
confidence: 99%
“…For example, Raman mappings confirmed that the graphene nanocoating covering the Biomedical-Grade Ti-6Al-4V alloys showed high structural stability and resistance to mechanical stress and chemical degradation, maintaining >99% coverage after corrosion [ 104 ]. Raman spectroscopies have been used to study dental materials were mostly find the degree of conversion (DC) of dental composites, adhesives and setting reaction of cements [ 103 ].…”
Section: Raman Spectroscopymentioning
confidence: 99%
“…Because of the two-dimensional honeycomb lattice structure, the very small pore size ensure the promising impermeability of graphene. Thus, graphene coating presents excellent structural stability and resistance to mechanochemical degradation; these could effectively prevent corrosion of Ti-6Al-4V implants [94]. Graphene oxide (GO), a novel kind of two-dimensional carbon nano-material, is easy to be functionalized because of a large number of oxygen-containing active surface groups, like carboxyl and hydroxyl groups [95].…”
Section: Graphenementioning
confidence: 99%
“…Several groups have investigated the GO coating of Ti implants in order to improve the osseointegration since it is biocompatible, has antibacterial properties [ 68 ] and can enhance the mechanical properties [ 69 ]. In addition, GO coatings prevent corrosion [ 70 ]. Nishida et al [ 71 ] reported the fabrication of a GO-applied scaffold and showed through in vivo studies that such scaffolds were able to enhance new bone formation.…”
Section: Graphenementioning
confidence: 99%