Abstract
Aluminium terbium alloys were prepared by simultaneous thermal evaporation resulting in a thin film library covering a 5 to 25 at.% Tb compositional spread. Synchrotron x-ray diffraction (XRD) proves all of the alloys to be amorphous. Scanning electron microscopy (SEM) measurements reveal the structural changes upon increase in Tb content with the formation of small, Tb-rich segregations right before a drastic change in morphology around 25 at.% Tb. Anodic oxides were formed systematically in cyclic voltammograms using scanning droplet cell microscopy. Coulometric analysis revealed a linear thickness over formation potential behaviour with film formation factors ranging from 1.2 nm V−1 (5 at.% Tb) to 1.6 nm V−1 (25 % Tb). Electrochemical impedance spectroscopy was performed for each incremental oxidation step resulting in a linear relation between inverse capacity and formation potential with dielectric constants ranging from 8 (5 at.% Tb) to 16 (25 at.% Tb).
Highlights
Aluminium is a very unnoble metal that forms oxides through the reaction with water or oxygen [1]
The non-linear character of the Energy-dispersive x-ray (EDX) composition mapping is directly related to the cosine thickness distribution above each source resulting in the present case in a composition variation ranging between Al5 at.% Tb and Al-26 at.% Tb
The evolution of the appearance corresponds well with the findings in scanning electron microscopy (SEM) investigations, as discussed in the text concentrations, the FCC structure typical to Al is evidenced by the presence of representative diffraction peaks indicated in the figure
Summary
Aluminium is a very unnoble metal that forms oxides through the reaction with water or oxygen [1]. The present work aims at a comprehensive study and systematic understanding of the influence of composition in mixed aluminium terbium oxides formed anodically.
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