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Oxide formation on chromium metal surfaces by low-energy oxygen implantation at room temperature (CROSBI ID 239932)

Prilog u časopisu | izvorni znanstveni rad | međunarodna recenzija

Peter, Robert ; Šarić, Iva ; Kavre Piltaver, Ivna ; Jelovica Badovinac, Ivana ; Petravić, Mladen Oxide formation on chromium metal surfaces by low-energy oxygen implantation at room temperature // Thin solid films, 636 (2017), 225-231. doi: 10.1016/j.tsf.2017.06.011

Podaci o odgovornosti

Peter, Robert ; Šarić, Iva ; Kavre Piltaver, Ivna ; Jelovica Badovinac, Ivana ; Petravić, Mladen

engleski

Oxide formation on chromium metal surfaces by low-energy oxygen implantation at room temperature

We have studied the formation of oxides on pure chromium metal surfaces by 1 keV O2+ ion bombardment at room temperature (RT), using x-ray photoemission spectroscopy (XPS) around Cr 2p or O 1s core-levels and the valence band photoemission. For comparison, we have also examined the oxidation mechanism of thermally oxidized Cr surfaces at RT. The results of thermal oxidation reveal the formation of a very thin, single Cr2O3 oxide with the saturation thickness of 0.7 nm, obtained after exposure to 10 L of O2. This layer reduces the reactivity of the surface and prevents any further adsorption or uptake of oxygen at higher oxygen doses. On the other hand, the oxygen-ion bombardment is more efficient in creating thicker Cr2O3 films with the logarithmic increase of film thickness with the implanted dose of oxygen, up to the saturation thickness of about 2.7 nm. This thickness is in good agreement with the implantation kinetics of oxygen ions in Cr. We explain the observed direct logarithmic growth rate by the radiation-enhanced diffusion of Cr cations and O anions within the oxide film through the open volume defects, such as voids, created by ion bombardment.

metallic chromium, room-temperature oxidation, ion-bombardment, XPS, oxidation kinetics

Rad je kao poster prezentiran na skupu 24. međunarodni znanstveni sastanak Vakuumska znanost i tehnika = 24. mednarodno znanstveno srečanje Vakuumska znanost in tehnika = 24th International Scientific Meeting on Vacuum Science and Technique ; održanom od 18.-19.5.2017.g., Zadar, Hrvatska ; u međunarodnu recenziju objavljen u Knjizi sažetaka ; Buljan, Maja ; Karlušić, Marko (ur.) ; Zagreb : Hrvatsko vakuumsko društvo = Croatian Vacuum Society, 2017 ; ISBN 9789537941178.

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Podaci o izdanju

636

2017.

225-231

objavljeno

0040-6090

10.1016/j.tsf.2017.06.011

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Fizika

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