Diffusion Phenomena in Nonstoichiometric Copper Sulfide and Selenide.

被引:0
|
作者
Konev, V.N.
Chebotin, V.N.
Fomenkov, S.A.
机构
来源
Neorganiceskie materialy | 1985年 / 21卷 / 02期
关键词
COPPER AND ALLOYS - Diffusion - COPPER COMPOUNDS - Thermodynamics - MASS TRANSFER;
D O I
暂无
中图分类号
学科分类号
摘要
From graphs of the decrease in the concentration polarization and from coulometric titration curves the values of the coefficient of combined chemical diffusion of cations and electrons and of the coefficient of self-diffusion of copper in the mixed ionic-electronic conductors Cu//2// minus // delta X (X equals S//1Se) are calculated for various values of delta at 670 K. The coefficient of combined diffusion decreases with an increase in delta , while the coefficient of self-diffusion does not depend on the degree of nonstoichiometry of the samples. The experimental and theoretical dependences of the coefficient of combined diffusion in Cu//2// minus // delta X on delta are in satisfactory agreement with each other.
引用
收藏
页码:205 / 209
相关论文
共 50 条
  • [31] Thermodynamic Properties of Electrons in alpha -Silver Selenide.
    Mostafa, Shawky N.
    Kamel, Kamal M.
    Zeitschrift fuer Metallkunde/Materials Research and Advanced Techniques, 1982, 73 (04): : 249 - 253
  • [32] INVESTIGATION OF THE STRUCTURE OF THE VALENCE BAND OF LEAD SELENIDE.
    Veis, A.N.
    Kaidanov, V.I.
    Kuteinikov, R.F.
    Nemov, S.A.
    Rudenko, S.A.
    Ukhanov, Yu.I.
    1978, 12 (02): : 161 - 163
  • [33] IONIC-CONDUCTION AND DIFFUSION OF COPPER IN COPPER SELENIDE
    CHATOV, VA
    IORGA, TP
    INGLIZYAN, PN
    SOVIET PHYSICS SEMICONDUCTORS-USSR, 1980, 14 (04): : 474 - 475
  • [34] DEFECT MOBILITY AND SELF-DIFFUSION IN NONSTOICHIOMETRIC MANGANOUS SULFIDE
    MROWEC, S
    DANIELEWSKI, M
    BULLETIN OF THE POLISH ACADEMY OF SCIENCES-CHEMISTRY, 1993, 41 (04): : 297 - 303
  • [35] LOW-RESISTANCE OHMIC CONTACTS TO ZINC SELENIDE.
    Tyagi, M.S.
    Journal of the Institution of Electronics and Telecommunication Engineers, 1979, 25 (12): : 491 - 494
  • [36] TIN-RELATED SHALLOW DONOR IN INDIUM SELENIDE.
    Mari, B.
    Segura, A.
    Chevy, A.
    Applied physics. A, Solids and surfaces, 1988, A46 (02): : 125 - 129
  • [37] INFLUENCE OF LITHIUM ON THE FORMATION OF PHOTOLUMINESCENT CENTERS IN ZINC SELENIDE.
    Agel'menev, M.E.
    Georgobiani, A.N.
    Ilyukhina, Z.P.
    Levit, A.D.
    Lepnev, L.S.
    Sluch, M.I.
    Soviet Physics - Lebedev Institute Reports (English Translation of Sbornik Kratkie Soobshcheniya p, 1987, (06): : 25 - 30
  • [38] RADIATIVE RECOMBINATION SPECTRA OF PLASTICALLY DEFORMED GALLIUM SELENIDE.
    Belen'kii, G.L.
    Goncharov, V.A.
    Negrii, V.D.
    Osip'yan, Yu.A.
    Suleimanov, R.A.
    Soviet Physics, Solid State (English translation of Fizika Tverdogo Tela), 1984, 26 (10): : 1893 - 1896
  • [39] INFRARED QUENCHING AND A UNIFIED DESCRIPTION OF PHOTOCONDUCTIVITY PHENOMENA IN CADMIUM SULFIDE AND SELENIDE
    BUBE, RH
    PHYSICAL REVIEW, 1955, 99 (04): : 1105 - 1116
  • [40] Copper diffusion in copper sulfide: a systematic study
    S. Cassaignon
    Th. Pauporté
    J. -F. Guillemoles
    J. Vedel
    Ionics, 1998, 4 : 364 - 371
12345