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  Ellmer, K.; Mientus, R.: Carrier transport in polycrystalline transparent conductive oxides: A comparative study of zinc oxide and indium oxide. Thin Solid Films 516 (2008), p. 4620-4627

10.1016/j.tsf.2007.05.084
Open Access Version

Abstract:
Highly-doped indium-tin oxide films exhibit resistivities ? as low as 1.2.10-4 ?cm, while for ZnO films resistivities in the range of 2 to 4.10-4 ?cm are reported. This difference is unexpected, if ionized impurity scattering would be dominant for carrier concentrations above 1020 cm-3. By comparing the dependences of the effective Hall mobility on the carrier concentration of ZnO and ITO it is found that grain barriers limit the carrier mobility in ZnO for carrier concentrations as high as 2.1020 cm-3, independently, if the films were grown on amorphous or single crystalline substrates. Depending on the deposition method, grain barrier trap densities between 1012 to 3.1013 cm-2 were estimated for ZnO layers. Also, crystallographic defects seem to reduce the mobility for highly doped ZnO films. On the other hand, for ITO films such an influence of the grain barriers was not observed down to carrier concentrations of about 1018 cm-3. Thus the grain barrier trap densities of ZnO and ITO are significantly different, which seems to be connected with the defect chemistry of the two oxides and especially with the piezoelectricity of zinc oxide.