Publikace detail

Thermal characterization of Se-Te thin films

Autoři: Svoboda Roman | Kincl Miloslav | Málek Jiří

Rok: 2015

Druh publikace: článek v odborném periodiku

Název zdroje: Journal of Alloys and Compounds

Název nakladatele: Elsevier Science SA

Místo vydání: Lausanne

Strana od-do: 40-46

Tituly:

Jazyk	Název	Abstrakt	Klíčová slova
cze	Termická charakterizace Se-Te tenkých filmů	Tepelné chování Se-Te filmů (plného kompozičního rozsahu) bylo studováno pomocí DSC za neizotermních podmínek. Klesající sklotvorná stabilita filmů byla popsána na základě teplot skelného přechodu, krystalizace a tání pomocí nového sklotvorného kritéria.	krystalizační kinetika; DSC; Se-Te skla; tenký film; strukturní relaxace
eng	Thermal characterization of Se-Te thin films	The thermal behavior of thin selenium-tellurium (Se-Te) films was studied under non-isothermal conditions using differential scanning calorimetry; full binary compositional range was investigated. Based on the glass transition, crystallization and melting data the decreasing glass-forming ability in the Se-Te chalcogenide system was described by using a novel glass-forming ability (GFA) criterion. The glass transition kinetics of the as-prepared thin films was found to change with increasing Te content; namely the activation energy of structural relaxation processes decreased from 355 to 245 kJ mol(-1) within the given compositional region. In the glass-forming region (at approx. 0-30% Te) the GFA and relaxation data obtained for the thin films correlated very well with the results for bulk glasses. Furthermore, the kinetics of crystallization were studied and described in terms of the Johnson-Mehl-Avrami nucleation-growth model. The apparent activation energy of crystallization was found to increase with Te content, changing from 115 to 170 kJ mol(-1) in the given compositional range. Two-dimensional growth of crystallites, consistent with the idea of sterically restricted crystallization in a thin layer, was confirmed for the Se-rich compositional region. Further addition was found to lead to increased process complexity due to the formation of smaller, volume-located crystallites. In the glass-forming region, the crystallization kinetics of thin films corresponded to that determined for very fine Se-Te powders.	Crystallization kinetics; DSC; Se-Te glass; Thin film; Structural relaxation

Vyhledávání

Přihlášení pro studenty

Přihlášení pro zaměstnance

Publikace detail

Katedry

Ústavy a pracoviště

Jak nás najdete?

Služby

Často hledáte