In this paper, physiochemical properties of amorphous alumina thin films, grown by the metal organic chemical vapour deposition process on the surface of platinum (Pt/Al2O3) and stainless steel (SS/Al2O3), were investigated in aqueous media. The study was performed by the use of scanning electrochemical microscopy (SECM), which allowed obtaining information on uniformity, topography and chemical stability/reactivity of the alumina coatings with high spatial resolution. In particular, the effects due to local acid, base and fluoride ions attack on alumina layers of thickness of about 250 nm (in the Pt/Al2O3 sample) and 1000 nm (in the SS/Al2O3 sample) were investigated. In the acid and base attack, high concentrations of H2SO4 and KOH were electrogenerated locally by the use of a 25 m diameter platinum microelectrode. The latter was also used as SECM tip to monitor the chemical effect on the alumina layers. It was found that, regardless of the thickness of the film, alumina provided good resistance against local attack of concentrated H2SO4; instead, the film dissolved when subjected to KOH attack. The dissolution rate depended on several experimental parameters, such as SECM-tip to substrate distance, electrolysis time and alumina film thickness. The alumina layer proved also relatively poor resistance to etching in 0.1 M NaF solutions.
|Data di pubblicazione:||2010|
|Titolo:||Characterization of metal-supported Al2O3 thin films by scanning electrochemical microscopy|
|Rivista:||THIN SOLID FILMS|
|Digital Object Identifier (DOI):||http://dx.doi.org/10.1016/j.tsf.2009.09.080|
|Appare nelle tipologie:||2.1 Articolo su rivista |
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|Thin Solid Films 518(2010)3625-3631.pdf||Abstract||Licenza non definita||Riservato|