2020
DOI: 10.1002/slct.202003368
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In Vitro Electrochemical Behavior of Sol‐Gel Derived Hydroxyapatite/Graphene Oxide Composite Coatings on 316L SS for Biomedical Applications

Abstract: Development of bioceramic coatings on the metallic implant surface with superior properties such as good bonding strength, better corrosion resistance and bioactivity was one of the key tasks for the present biomaterial scientists. Hydroxyapatite (Ca 10 (PO 4) 6 (OH) 2) was one of the hopeful calcium phosphate-based ceramic biomaterials which can be enforced as a layer on the metallic substrate due to its resemblance with the human bone in chemical composition. Current effort defines the in-situ blending of HA… Show more

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Cited by 15 publications
(5 citation statements)
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“…HA/GO composite coatings on 316 L SS substrates, prepared using the dip and spin coating deposition technique, were described in [109]. Morphology investigations demonstrated the bonding capability of rod-shaped HA particles to the surface of graphene oxide nanosheets, leading to the reinforcement of the HA/GO matrix.…”
Section: Inorganic-based Materials Componentsmentioning
confidence: 99%
“…HA/GO composite coatings on 316 L SS substrates, prepared using the dip and spin coating deposition technique, were described in [109]. Morphology investigations demonstrated the bonding capability of rod-shaped HA particles to the surface of graphene oxide nanosheets, leading to the reinforcement of the HA/GO matrix.…”
Section: Inorganic-based Materials Componentsmentioning
confidence: 99%
“…Among the methods used to prepare composite, the incorporation of antibacterial compounds into the precursor solution is highly employed in co-precipitation, sol-gel, and hydrothermal methods to produce antibacterial HA powders with high homogeneity [42, 82,83]. Additionally, the solution containing the antibacterial compound can be applied to HA substrates by dip coating and spin coating [84][85][86].…”
Section: Functionalization By Antibacterial Compositesmentioning
confidence: 99%
“…Later, the GO was also used in combination with hydroxyapatite as a coating for 316L stainless steel. The functional groups of GO bind the calcium ions from the hydroxyapatite, thereby improving the strength of the material and also acting as anchors for the metallic surface and increasing the adhesion of the coating [89]. To further improve the biocompatibility and other parameters, polymers can also be used in combination with the hydroxyapatite and the GO.…”
Section: Graphene Oxide As An Implant Coatingmentioning
confidence: 99%