Investigation of the system AgIn₅S₈-FeIn₂S₄

The single crystals of FeIn₂S₄, AgIn₅S₈ compounds and (FeIn₂S₄)_{1- x} AgIn₅S₈ solid solutions have been grown with Bridgeman method. Their composition and structure were determined. It is seen that the pointed compounds and solid solutions are crystallized in the spinal cubic structure. The elementary cell parameters calculated with the least square method change linearly. The density of FeIn₂S₄, AgIn₅S₈ compounds and their solid solutions were calculated with the pycnometric method. The density and the elementary cell parameter with х compasitions change linearly. The temperatures od phase transformation were determined with the differential thermal analysis and the diagram of the AgIn₅S₈-FeIn₂S₄ system state was built.

single cryslals, solid solutions, crystalline structure, density, temperature of phase transformations, state diagram

1. Electrical spin injection in a ferromagnetic semiconductor heterostructure / D.K. Young [et al.] // Nature. 1999. Vol. 402, № 6763. P. 790-797.

2. Нифтиев Н.Н., Тагиев О.Б., Рустамов А.Г. Оптические свойства монокристаллов MnGa2S4 // ФТП. 1990. Т. 24, № 4. С. 758-760.

3. Четверные твердые растворы (FeIn2S4)x·(MnIn2S4)1-x и фоточувствительные структуры на их основе / И.В. Боднарь [и др.] // ФТП. Т. 45, № 7. С. 941-946.

4. Determination of the dielectric function of MnIn2S4 single crystals by spectroscopic ellipsometry / Leon M. [et al.] // J. Phys. Chem. Solids. 2012. Vol. 73, № 6. P. 720-723.

5. Reil S. Materials with layered structures X1: subsolidus phase diagram of the system FeIn2S4-FeIn2Se4 / S. Reil, H. Haeuseler // J. Alloys Compounds. 1998. Vol. 270, № 1-2. Р. 83-87.

6. Боднарь И.В. Ширина запрещенной зоны твердых растворов (FeIn2S4)1-х×(In2S3)х // ФТП. 2014. Т. 48, № 9. С. 1194-1197.

7. Optical and electrical properties of CuIn5S8 and AgIn5S8 single crystals / Usujima A. [et al.] // Jpn. J. Appl. Phys. 1981. Vol. 20, № 7. P. L505-L507.

8. Физические свойства монокристаллов твердых растворов CuxAg1-xIn5S8 и поверхностно-барьерных структур на их основе / И.В. Боднарь [и др.] // ФТП. 1998. Т. 32, № 9. С. 1043-1046.

9. Получение и исследование гетеропереходов AgIn5S8/(InSe, GaSe) / И.В. Боднарь [и др.] // ФТП. 1999. Т. 33, № 7. С. 805-809.

10. Ильинский Г.А. Определение плотности минералов. Л.: Недра, 1975. 119 с.

11. Lutz H.D., Feher M. Gitterschwingungsspektren-IV. Mitteilung. Die аbsorptionsspektren von сhalkogenospinellen im langwelligen infrarot // Spectrochimica Acta. 1971. Vol. 27A, № 3. P. 357-365.

12. Hill R.J., Craig J.R., Gibbs J.V. Systematics of the spinel structure // Phys. Chem. Miner. 1979. Vol. 4, № 4. P. 317-339.

13. Roth R.S., Parker H.S., Brower W.S. Comments on the systems Ag2S-In2S3 // Mat. Res. Bull. 1973. T. 8, № 3. P. 333-338.

14. Isik M., Gasanly N. Ellipsometry study of optical parameters of AgIn5S8 crystals // Physica B. Conden. Matte. 2015. T. 478. P. 127-130.