Controllable film densification and interface flatness for high-performance amorphous indium oxide based thin film transistors

Wei Ou-Yang; Nobuhiko Mitoma; Takio Kizu; Xu Gao; Meng Fang Lin; Toshihide Nabatame; Kazuhito Tsukagoshi

doi:10.1063/1.4898815

Controllable film densification and interface flatness for high-performance amorphous indium oxide based thin film transistors

Wei Ou-Yang, Nobuhiko Mitoma, Takio Kizu, Xu Gao, Meng Fang Lin, Toshihide Nabatame, Kazuhito Tsukagoshi

Research output: Contribution to journal › Article › peer-review

10 Citations (Scopus)

Abstract

To avoid the problem of air sensitive and wet-etched Zn and/or Ga contained amorphous oxide transistors, we propose an alternative amorphous semiconductor of indium silicon tungsten oxide as the channel material for thin film transistors. In this study, we employ the material to reveal the relation between the active thin film and the transistor performance with aid of x-ray reflectivity study. By adjusting the pre-annealing temperature, we find that the film densification and interface flatness between the film and gate insulator are crucial for achieving controllable high-performance transistors. The material and findings in the study are believed helpful for realizing controllable high-performance stable transistors.

Original language	English
Article number	163503
Journal	Applied Physics Letters
Volume	105
Issue number	16
DOIs	https://doi.org/10.1063/1.4898815
Publication status	Published - 2014 Oct 20
Externally published	Yes

ASJC Scopus subject areas

Physics and Astronomy (miscellaneous)

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abstract = "To avoid the problem of air sensitive and wet-etched Zn and/or Ga contained amorphous oxide transistors, we propose an alternative amorphous semiconductor of indium silicon tungsten oxide as the channel material for thin film transistors. In this study, we employ the material to reveal the relation between the active thin film and the transistor performance with aid of x-ray reflectivity study. By adjusting the pre-annealing temperature, we find that the film densification and interface flatness between the film and gate insulator are crucial for achieving controllable high-performance transistors. The material and findings in the study are believed helpful for realizing controllable high-performance stable transistors.",

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AU - Ou-Yang, Wei

AU - Mitoma, Nobuhiko

AU - Kizu, Takio

AU - Gao, Xu

AU - Lin, Meng Fang

AU - Nabatame, Toshihide

AU - Tsukagoshi, Kazuhito

PY - 2014/10/20

Y1 - 2014/10/20

N2 - To avoid the problem of air sensitive and wet-etched Zn and/or Ga contained amorphous oxide transistors, we propose an alternative amorphous semiconductor of indium silicon tungsten oxide as the channel material for thin film transistors. In this study, we employ the material to reveal the relation between the active thin film and the transistor performance with aid of x-ray reflectivity study. By adjusting the pre-annealing temperature, we find that the film densification and interface flatness between the film and gate insulator are crucial for achieving controllable high-performance transistors. The material and findings in the study are believed helpful for realizing controllable high-performance stable transistors.

AB - To avoid the problem of air sensitive and wet-etched Zn and/or Ga contained amorphous oxide transistors, we propose an alternative amorphous semiconductor of indium silicon tungsten oxide as the channel material for thin film transistors. In this study, we employ the material to reveal the relation between the active thin film and the transistor performance with aid of x-ray reflectivity study. By adjusting the pre-annealing temperature, we find that the film densification and interface flatness between the film and gate insulator are crucial for achieving controllable high-performance transistors. The material and findings in the study are believed helpful for realizing controllable high-performance stable transistors.

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Controllable film densification and interface flatness for high-performance amorphous indium oxide based thin film transistors

Abstract

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