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@article{769959, author = {Orava, Jiří and Wagner, Tomáš and Krbal, Miloš and Kohoutek, Tomáš and Vlček, Milan and Klapetek, Petr and Frumar, Miloslav}, article_location = {Nizozemsko}, article_number = {2-9}, keywords = {Chemical durability; Composition; Vapor phase deposition; Chalcogenides; Atomic force and scanning tunneling microscopy}, language = {eng}, issn = {0022-3093}, journal = {Journal of Non-Crystalline Solids}, title = {Selective dissolution of Agx(As0.33S0.67_ySey)100_x chalcogenide thin films}, volume = {354}, year = {2008} }
TY - JOUR ID - 769959 AU - Orava, Jiří - Wagner, Tomáš - Krbal, Miloš - Kohoutek, Tomáš - Vlček, Milan - Klapetek, Petr - Frumar, Miloslav PY - 2008 TI - Selective dissolution of Agx(As0.33S0.67_ySey)100_x chalcogenide thin films JF - Journal of Non-Crystalline Solids VL - 354 IS - 2-9 SP - 533-539 EP - 533-539 PB - Elsevier Science B.V. SN - 00223093 KW - Chemical durability KW - Composition KW - Vapor phase deposition KW - Chalcogenides KW - Atomic force and scanning tunneling microscopy N2 - Thin films of AS(33)S(67), AS(33)S(33.5)Se(33.5) and AS(33)Se(67) prepared by vacuum thermal evaporation were selectively etched in alkaline organic solutions of amines i.e. 1,2-diaminopropane, morpholine, aminoethanol, cyclohexylamine, hexylamine, butylamine and propylamine. Dissolution rates v, resolution coefficients y and surface quality are discussed and compared to recently published results of etching process in inorganic solutions of NaOH, Na2S and (NH4)(2)S. The resolution coefficients achieved in amine based solutions are by the order of magnitude higher than ones in inorganic etchants. Etching in organic solutions showed increase of the resolution coefficient and decrease of dissolution rate of exposed and unexposed film in the sequence of propylamine, butylamine, hexylamine and cyclohexylamine solution. The role of different type of amine on dissolution rate and resolution coefficient is discussed. The dissolution parameter y is getting worse in the same type of solvent with increasing content of Se. The dissolution mechanism and relation between photo-structural change and dissolution behavior of films are proposed. New results of negative selective etching of (As0.33Se0.67)(100-x) in NaCN are presented and compared with selective etching curves of recently published Ag-x(As0.33S0.67)(100-x) and Ag-x(AS(0.33)S(0.335)Se(0.335))(100-x) thin films. Potential application is shown in fabrication of 'microlenses like' motive into the Ag-AS(33)S(67) thin film. ER -
ORAVA, Jiří, Tomáš WAGNER, Miloš KRBAL, Tomáš KOHOUTEK, Milan VLČEK, Petr KLAPETEK a Miloslav FRUMAR. Selective dissolution of Agx(As0.33S0.67\_{}ySey)100\_{}x chalcogenide thin films. \textit{Journal of Non-Crystalline Solids}. Nizozemsko: Elsevier Science B.V., 2008, roč.~354, 2-9, s.~533-539. ISSN~0022-3093.
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