2022
DOI: 10.26434/chemrxiv-2022-npxws-v2
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Strategy facilitating the transfer of zirconium-oxide nanotubes onto zirconia-based ceramic implants

Abstract: We report on the synthesis route for metal-oxide nanotubes via electro-chemical anodization of zirconium foil resulting in the formation of zirconia nanotubular (ZrNT) films, subsequently transferred onto pre-formed zirconia (ZrO2) implant material. The approach was based on a direct transfer of ZrNT films onto the ceramic implant via an acetone bath. The ZrNT film was detached from the metal-foil using regular adhesive-tape prior to transfer. This simple technique allows to impart a robust micro-nanoscale str… Show more

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“…Synthesis of modified zirconium dioxide nanotube samples was performed according to well established recipes, see e.g. [8]. A zirconium sheet (99.2 % purity, Goodfellow UK, 0.125 mm thickness) was anodized at 90 V for 45 min at room temperature in a two-electrode setup versus a platinum electrode using an electrolyte based on glycerol with 30% w/v formamide containing 2 wt-% ammonium fluoride and 2 wt.-% deionized water.…”
Section: Methodsmentioning
confidence: 99%
“…Synthesis of modified zirconium dioxide nanotube samples was performed according to well established recipes, see e.g. [8]. A zirconium sheet (99.2 % purity, Goodfellow UK, 0.125 mm thickness) was anodized at 90 V for 45 min at room temperature in a two-electrode setup versus a platinum electrode using an electrolyte based on glycerol with 30% w/v formamide containing 2 wt-% ammonium fluoride and 2 wt.-% deionized water.…”
Section: Methodsmentioning
confidence: 99%