Band gap engineering of indium zinc oxide by nitrogen incorporation

The effects of nitrogen incorporation in indium zinc oxide films, as grown by RF reactive magnetron sputtering, on the structural, electrical and optical properties were studied. It was determined that the variation of the N 2/Ar ratio, in the reactive gas flux, was directly proportional to the nitrogen percentage measured in the sample, and the incorporated nitrogen, which substituted oxygen in the films induces changes in the band gap of the films. This phenomenon was observed by measurement of absorption and transmission spectroscopy in conjunction with spectral ellipsometry. To fit the ellipsometry spectra, the classical and Adachi dispersion models were used. The obtained optical parameters presented notable changes related to the increment of the nitrogen in the film. The band gap narrowed from 3.5 to 2.5 eV as the N2/Ar ratio was increased. The lowest resistivity obtained for these films was 3.8 × 10-4 Ω cm with a carrier concentration of 5.1 × 1020 cm-3. © 2014 Elsevier B.V.

Band gap engineering; Band gap narrowing; Indium zinc oxynitride; Nitrogen incorporation Ellipsometry; Energy gap; Oxide films; Band gap engineering; Band gap narrowing; Electrical and optical properties; Indium-zinc-oxide films; Nitrogen incorporation; RF reactive magnetron sputtering; Transmission spectroscopy; Zinc oxynitride; Nitrogen

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