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V.I. Gavrilenko, A.M. Grekhov, D.V. Korbutyak (1987)
Opticheskie svoistva poluprovodnikov
J. Hogg, H. Sutherland, D. Williams (1971)
Crystallographic evidence for the existence of the phases In4Se3 and In4Te3 which contain the homonuclear triatomic cation (In3)5Journal of The Chemical Society D: Chemical Communications
A.J. Darnell, W.F. Libby (1964)
Magnetic Properties of Metals TelluridesPhys. Rev., 135
C. Norris (1978)
Temperature, injection level, and frequency dependences of the luminescence in lightly - and heavily-doped CdTe:InJournal of Luminescence, 16
I.V. Potykevich, I.V. Gavrishchak, I.M. Rarenko (1963)
Magnetic Susceptibility of CdTeUkr. Fiz. Zh. (Russ. Ed.), 8
I.N. Odin, M.V. Chukichev, M.E. Rubina (2003)
Luminescent Properties of CdS Crystals Doped with Gallium and Tellurium in Cadmium VaporNeorg. Mater., 39
J.H.C. Hogg, H.H. Sutherland, D.J. Williams (1971)
Crystallographic Evidence for Existence of the Phases In4Se3 and In4Te3 Containing the Homonuclear Triatomic Cation (In3)+5J. Chem. Soc. D, 23
S. Seto, K. Suzuki, V. Abastillas, K. Inabe (2000)
Compensating related defects in In-doped bulk CdTeJournal of Crystal Growth, 214
L. Shcherbak, P. Feichouk, P. Fochouk, O. Panchouk (1996)
Self-compensation studies in Cd-saturated In-doped CdTeJournal of Crystal Growth, 161
C. Trapp, J. Stout (1963)
Magnetic Susceptibility of MnF 2Physical Review Letters, 10
A. Darnell, W. Libby (1964)
Artificial Metals: InSb, the Sn Alloys with InSb, and Metallic InTePhysical Review, 135
I. Odin, M. Chukichev, M. Rubina (2003)
Luminescent Properties of CdS Crystals Doped with Gallium and Tellurium in Cadmium VaporInorganic Materials, 39
L. Schcherbak, P. Feichouk, P. Fochouk, O. Panchouk (1996)
Self-Compensation in Cd-Saturated In-Doped CdTeJ. Cryst. Growth, 161
K. Shubert, E. Dorre, M. Kluge (1955)
Zur Kristallchemie der B-Metalle. III. Kristallstruktur von GaSe und InTeZ. Metallkd., 46
L. Thomassen, D. Mason, Gerald Rose, J. Sarace, G. Schmitt (1963)
The Phase Diagram for the Pseudo‐binary System CdTe ‐ In2Te3Journal of The Electrochemical Society, 110
The composition dependences of the unit-cell parameter for CdTe-based solid solutions in the CdTe-InTe and CdTe-In4Te3 joins have been used to determine the limits of the solid solutions. Magnetic susceptibility data and the measured and X-ray densities of the solid solutions suggest that CdTe doped with In2Te2 or In4Te3 contains In+ and In3+ on the cation site. The cathodoluminescence spectra of CdTe doped with In2Te2, In4Te3, and In2Te3 have been measured, and the effect of mixed heterovalent substitution (In+ and In3+) on the luminescence behavior of CdTe has been analyzed.
Inorganic Materials – Springer Journals
Published: Jun 28, 2009
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