Electron-Ion Mixed Conduction of Amorphous WO3-x Thin Film Probed by Soft-X-Ray Spectroscopy

T. Sugimoto, K. Kawamura, T. Kawaguchi, T. Tsuchiya, Chizuko Kudo, T. Higuchi
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引用次数: 1

Abstract

Amorphous WO3-x thin films with ~200 and ~600 nm thicknesses have been prepared on Pt/SiO2 substrates by RF magnetron sputtering. The mixed valence states of W6+ and W5+ are observed in the photoemission spectroscopy (PES) spectra of W 4d core level. The electrical conductivities exhibit the thermal activation-type behaviors in the temperature region of 100~200°C. The activation energies of 200 and 600 nm films are 0.1 and 0.6 eV, respectively. The band gaps (Eg) of 200 and 600 nm films are ~2.6 and ~2.0 eV, respectively. The expanded PES in the Eg region and X-ray absorption spectra exhibit the W 5d-DOS at the Fermi level and defect-induced state at the bottom of conduction band, respectively. The above results indicate that the conducting carrier of amorphous WO3-x thin film is closely related to the film thickness and oxygen vacancies.
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软x射线光谱探测WO3-x非晶薄膜的电子-离子混合导电
采用射频磁控溅射技术在Pt/SiO2衬底上制备了厚度为~200和~600 nm的WO3-x非晶薄膜。在w4d核能级的光发射光谱(PES)中观察到W6+和W5+的混合价态。电导率在100~200℃范围内表现为热激活型行为。200 nm和600 nm薄膜的活化能分别为0.1和0.6 eV。200 nm和600 nm薄膜的带隙(Eg)分别为~2.6和~2.0 eV。扩展后的pe在Eg区和x射线吸收光谱中分别表现为费米能级的w5d - dos和导带底部的缺陷诱导态。上述结果表明,非晶WO3-x薄膜的导电载流子与薄膜厚度和氧空位密切相关。
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