期刊
JOURNAL OF MATERIALS RESEARCH
卷 17, 期 12, 页码 3155-3162出版社
MATERIALS RESEARCH SOCIETY
DOI: 10.1557/JMR.2002.0456
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Gallium-indium-oxide films (GaxIn2-xO3), where x = 0.0-1.1, were grown by low-pressure metalorganic chemical vapor deposition using the volatile metalorganic precursors In(dpm)(3) and Ga(dpm)(3) (dpm =. 2,2,6,6-tetramethyl-3,5-heptanedionato). The films were smooth (root mean square roughness. = 50-65 Angstrom) with a homogeneously Ga-substituted, cubic In2O3 microstructure, randomly oriented on quartz or heteroepitaxial on (100) yttria-stabilized zirconia-single-crystal substrates. The highest conductivity of the as-grown films was found at x = 0.12, with sigma = 700 S/cm [n-type; carrier density = 8.1 X 10(19) cm(-3); mobility = 55.2 cm(2)/(V s); dor/dT < 0]. The optical transmission window of such films is considerably broader than that of Sn-doped In2O3, and the absolute transparency rival or exceeds that of the most transparent conductive oxides known. Reductive annealing, carried out at 400-425degreesC in a flowing gas mixture of H-2 (4%) and N-2, resulted in increased conductivity (sigma = 1400 S/cm; n-type), carrier density (1.4 x 10(20) cm(-3)), and mobility as high as 64.6 cm(2)/(V s), with little loss in optical transparency. No significant difference in carrier mobility or conductivity is observed between randomly oriented and heteroepitaxial films, arguing in combination with other data that carrier scattering effects at high-angle grain/domain boundaries play a minor role in the conductivity mechanism.
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