Comparison of solution processed As33S67 thin films deposited using primary amines of various aliphatic chain length

•Various amines used for deposition of As33S67 spin-coated films were studied.•Thin films in optical quality prepared from amines with 3-6 carbons in chain.•Carbon chain length in amine influences only conditions of film deposition process.•Structure and properties of deposited films depend only on...

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Bibliographic Details
Published in:Journal of non-crystalline solids 2020-12, Vol.550, p.120382, Article 120382
Main Authors: Jancalek, Jiri, Palka, Karel, Kurka, Michal, Slang, Stanislav, Vlcek, Miroslav
Format: Article
Language:English
Subjects:
Chalcogenide glasses
Solution processed films
Spin-coating
Thin films
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Summary:•Various amines used for deposition of As33S67 spin-coated films were studied.•Thin films in optical quality prepared from amines with 3-6 carbons in chain.•Carbon chain length in amine influences only conditions of film deposition process.•Structure and properties of deposited films depend only on annealing temperature. Solution processed thin chalcogenide films gain attention due to their interesting optical properties and simplicity of the deposition. The influence of the aliphatic chain length in primary amines used for As33S67 thin films deposition by spin-coating and their subsequent characterization had been studied in this paper, particularly films prepared from solutions based on n-propylamine, n-butylamine, n-pentylamine and n-hexylamine were investigated. As-prepared thin films were annealed at temperatures below glass Tg. Results gave evidence that variety in physical and chemical properties of studied amines influences required conditions of deposition process of the thin film only (such as source glass dissolution time, thin film thickness, thickness shrinkage). The structure, optical properties, surface roughness, organic residual content and chemical resistance of deposited thin films are not significantly influenced by used amine but mostly by the post-deposition annealing temperature. Thin films composition remains uninfluenced by neither used amine nor the annealing temperature.
ISSN:0022-3093
1873-4812
DOI:10.1016/j.jnoncrysol.2020.120382