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Features and consistent patterns of changes in properties of the system A III B V - ZnTe solid solutions

By the methods developed for the InSb-ZnTe, GaSb-ZnTe systems, in the regions of mutual solubility of the initial binary compounds (InSb and ZnTe, GaSb and ZnTe), solid solutions (InSb) x (ZnTe) 1-x , (GaSb) x (ZnTe) 1-x have been obtained. X-ray, IR and Raman spectroscopic, electrophysical studies...

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Bibliographic Details
Published in:Journal of physics. Conference series 2021-02, Vol.1791 (1), p.12117
Main Authors: Kirovskaya, I A, Novgorodtseva, L V, Vasina, M V, Mironova, E V, Nor, P E, Yurieva, A V, Chernous, N V, Zhigarova, O Yu, Krasheninin, V I
Format: Article
Language:English
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Summary:By the methods developed for the InSb-ZnTe, GaSb-ZnTe systems, in the regions of mutual solubility of the initial binary compounds (InSb and ZnTe, GaSb and ZnTe), solid solutions (InSb) x (ZnTe) 1-x , (GaSb) x (ZnTe) 1-x have been obtained. X-ray, IR and Raman spectroscopic, electrophysical studies of the obtained solid solutions (in comparison with the initial binary compounds and among themselves) have been carried out, following the results of which the obtained solid solutions have been certified as substitutional solid solutions with a cubic sphalerite structure. The information on multicomponent diamond-like semiconductors has been expanded. The acid-base properties of the InSb-ZnTe, GaSb-ZnTe systems components surfaces, varying in composition from weak acid to weakly basic, have been studied. General and distinctive features in the “behavior” of the InSb-ZnTe, GaSb-ZnTe systems solid solutions have been revealed. The relative influence of binary components on the type of dependences “property – composition” has been demonstrated and explained. Practical recommendations have been given for the use of solid solutions with the lowest pHiso values as materials for the manufacture of sensors for main gases trace contamination.
ISSN:1742-6588
1742-6596
DOI:10.1088/1742-6596/1791/1/012117