Electrodeposition of a hydroxyapatite coating on a biocompatible NiTi alloy

Abstract: The electrodeposition method was used to apply a hydroxyapatite coating (HAP) on the surface of a biocompatible NiTi alloy with the aim to enhance the corrosion resistance of the substrate and therefore decrease the release of nickel ions from the surface of the alloy. A uniform inner layer of HAP was formed and overlaid by clusters of spherical and flake-like morphological structures. The HAP coating exhibited super-hydrophilic wetting properties compared to the moderate hydrophilicity of the NiTi alloy. The … Show more

“…The resulting bone-like HA layer reduced, by one order of magnitude, the Ni release after a 50-day body fluid immersion test. Kocijan et al [522] confirmed the barrier property of the HA coatings: The electrodeposited layer effectively enhanced corrosion resistance in Hank's solution of NiTi samples. Even a thin amorphous calcium phosphate layer (~600 nm thick) deposited by r.f.…”

Corrosion of Fixed Orthodontic Appliances: Causes, Concerns, and Mitigation Strategies

“…The resulting bone-like HA layer reduced, by one order of magnitude, the Ni release after a 50-day body fluid immersion test. Kocijan et al [522] confirmed the barrier property of the HA coatings: The electrodeposited layer effectively enhanced corrosion resistance in Hank's solution of NiTi samples. Even a thin amorphous calcium phosphate layer (~600 nm thick) deposited by r.f.…”

Corrosion of Fixed Orthodontic Appliances: Causes, Concerns, and Mitigation Strategies