Understanding the mechanism of TiO2 nanotubes formation at low potentials (≤ 8 V) through electrochemical methods
The electrochemical characterization of cpTi–2 during anodization was carried out to
understand the formation of nano–tubular structure at different applied potentials (≤ 8 V) …
understand the formation of nano–tubular structure at different applied potentials (≤ 8 V) …
Investigation of the formation mechanism of titanium oxide nanotubes and its electrochemical evaluation
The electrochemical synthesis of titanium dioxide nanotubes (TNTs) on titanium alloys
depends on the electrolyte composition and process parameters. To gain insight of titanium …
depends on the electrolyte composition and process parameters. To gain insight of titanium …
Formation of nanotubes on commercially pure titanium at high potentials (= 10 V) and their electrochemical response
The commercially pure titanium (cpTi–2) was anodized at high potentials (≥ 10 V) in an
organic solution containing fluoride ions. The morphology of the nanotubular structure (NTs) …
organic solution containing fluoride ions. The morphology of the nanotubular structure (NTs) …