Szczegóły publikacji

Opis bibliograficzny

Morphology and structure of the erbium stabilized bismuth oxide thin films deposited by PLD technique / S. KĄC, G. SZWACHTA, Ł. CIENIEK, T. MOSKALEWICZ // Archives of Metallurgy and Materials / Polish Academy of Sciences. Committee of Metallurgy. Institute of Metallurgy and Materials Science ; ISSN 1733-3490. — 2019 — vol. 64 iss. 3, s. 969–974. — Bibliogr. s. 974

Autorzy (4)

Słowa kluczowe

surface topography pulsed laser deposition thin films bismuth oxide

Dane bibliometryczne

ID BaDAP	124958
Data dodania do BaDAP	2019-10-07
Tekst źródłowy	URL
DOI	10.24425/amm.2019.129482
Rok publikacji	2019
Typ publikacji	artykuł w czasopiśmie
Otwarty dostęp
Creative Commons
Czasopismo/seria	Archives of Metallurgy and Materials

Abstract

The aim of the work was to obtain thin bismuth oxide films containing, at room temperature, the Bi1,5Er0,5O3 phase. This phase corresponds to the structure of the high-temperature delta-Bi2O3 phase, in pure bismuth oxide, characterized by the highest ionic conductivity of all known solid state ionic conductors. The high-temperature delta-Bi2O3 phase with the face centered cubic structure, in pure bismuth oxide, occurs only at temperature above 730 degrees C. Stabilization of the delta-Bi2O3 phase at room temperature was achieved by an addition of the erbium together with the employment of the Pulsed Laser Deposition (PLD) technique. The influence of an amount of Er alloying and the film thickness on surface morphology, microstructure, phase composition of thin films were investigated. The velocity of deposition of thin layers of bismuth stabilized with erbium in the PLD process using the Nd: YAG laser was about 0.5 nm/s. The investigation results of erbium doped bismuth oxide thin films deposited onto (0001) oriented Al2O3 monocrystalline substrate are presented. Thin films of uniform thickness, without cracks, and porosity were obtained. All deposited thin films (regardless of the film thickness or erbia (Er2O3) content) exhibited a columnar structure. In films stabilized with erbium, up to approx. 250 run thickness, the columns have a diameter at the base from 25 to 75 nm. The columns densely and tightly fill the entire volume of the films. With increasing of the film thickness increases, porosity also significantly increases. In thin layers containing from 20 to 30 mole % Er2O3 the main identified phase at room temperature is Bi1.5Er0.5O3. It is similar to the defective fluorite-type structure, and belongs to the Fm-3m space group. This phase corresponds to the structure of the high-temperature delta-Bi2O3 phase in pure bismuth oxide.

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