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Author Voitovich, O. E. ♦ Tsyutsyura, D. I. ♦ Pashkovskii, M. V.
Source United States Department of Energy Office of Scientific and Technical Information
Content type Text
Language English
Subject Keyword MATERIALS SCIENCE ♦ INDIUM TELLURIDES ♦ ENERGY GAP ♦ LATTICE PARAMETERS ♦ MICROHARDNESS ♦ MERCURY TELLURIDES ♦ SILVER TELLURIDES ♦ BRIDGMAN METHOD ♦ CHEMICAL COMPOSITION ♦ FORBIDDEN TRANSITIONS ♦ MICROSTRUCTURE ♦ PHASE STUDIES ♦ QUANTITY RATIO ♦ RECRYSTALLIZATION ♦ SOLID SOLUTIONS ♦ X-RAY DIFFRACTION ♦ CHALCOGENIDES ♦ COHERENT SCATTERING ♦ CRYSTAL GROWTH METHODS ♦ CRYSTAL STRUCTURE ♦ DIFFRACTION ♦ DISPERSIONS ♦ ENERGY-LEVEL TRANSITIONS ♦ HARDNESS ♦ INDIUM COMPOUNDS ♦ MECHANICAL PROPERTIES ♦ MERCURY COMPOUNDS ♦ MIXTURES ♦ SCATTERING ♦ SILVER COMPOUNDS ♦ SOLUTIONS ♦ TELLURIDES ♦ TELLURIUM COMPOUNDS ♦ TRANSITION ELEMENT COMPOUNDS 360602* -- Other Materials-- Structure & Phase Studies ♦ MaterialsProperties
Abstract The authors provide the technology of the title compound crystals and some of their physicochemical properties. Solid solution samples of the AgInTe/sub 2/-HgTe system were prepared by the Bridgman and solid-state recrystallization methods in the form of crystals or coarse-grained ingots. Dependences of the band gap, microhardness, and unit-cell parameters of the title compound solid-solution samples on various compositions are shown. The separate synthesis of samples of the solid solutions (AgIn/sub 5/Te/sub 8/)/sub x(8HgTe)/sub 1-x/ performed and their metallographic analysis confirm their single-phase nature and the possibility of the existence of such solid solutions.
Educational Use Research
Learning Resource Type Article
Publisher Date 1987-04-01
Publisher Place United States
Journal Inorg. Mater.
Volume Number 22
Issue Number 11
Organization I. Franko Drogobych State Pedagogic Institute, USSR


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