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    OXIDE SINTERED BODY, SPUTTERING TARGET, AND OXIDE SEMICONDUCTOR THIN FILM OBTAINED USING SPUTTERING TARGET

    Neue Suche nach: NAKAYAMA TOKUYUKI
    Neue Suche nach: NISHIMURA EIICHIRO
    Neue Suche nach: MATSUMURA FUMIHIKO
    Neue Suche nach: IWARA MASASHI

    Provided are: a sintered oxide which achieves low carrier density and high carrier mobility when configured as an oxide semiconductor thin-film by using the sputtering method; and a sputtering target using the same. This sintered oxide contains indium, gallium and magnesium as oxides. It is preferable for the gallium content to be 0.20-0.45, inclusive, in terms of an atomic ratio (Ga/(In+Ga)), the magnesium content to be at least 0.0001 and less than 0.05 in terms of an atomic ratio (Mg/(In+Ga+Mg)), and the sintering to occur at 1,200-1,550° C., inclusive. An amorphous oxide semiconductor thin-film obtained by forming this sintered oxide as a sputtering target is capable of achieving a carrier density of less than 3.0×1018cm−3, and a carrier mobility of 10 cm2V−1sec−1 or higher.

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    OXIDE SINTERED BODY, SPUTTERING TARGET, AND OXIDE SEMICONDUCTOR THIN FILM OBTAINED USING SPUTTERING TARGET

    Neue Suche nach: NAKAYAMA TOKUYUKI
    Neue Suche nach: NISHIMURA EIICHIRO
    Neue Suche nach: MATSUMURA FUMIHIKO
    Neue Suche nach: IWARA MASASHI

    Provided are: a sintered oxide which achieves low carrier density and high carrier mobility when configured as an oxide semiconductor thin-film by using the sputtering method; and a sputtering target using the same. This sintered oxide contains indium, gallium and magnesium as oxides. It is preferable for the gallium content to be 0.20-0.45, inclusive, in terms of an atomic ratio (Ga/(In+Ga)), the magnesium content to be at least 0.0001 and less than 0.05 in terms of an atomic ratio (Mg/(In+Ga+Mg)), and the sintering to occur at 1,200-1,550° C., inclusive. An amorphous oxide semiconductor thin-film obtained by forming this sintered oxide as a sputtering target is capable of achieving a carrier density of less than 3.0×1018cm−3, and a carrier mobility of 10 cm2V−1sec−1 or higher.

    Zugriff

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    OXIDE SINTERED BODY, SPUTTERING TARGET, AND OXIDE SEMICONDUCTOR THIN FILM OBTAINED USING SPUTTERING TARGET

    Neue Suche nach: NAKAYAMA TOKUYUKI
    Neue Suche nach: NISHIMURA EIICHIRO
    Neue Suche nach: MATSUMURA FUMIHIKO
    Neue Suche nach: IWARA MASASHI

    Provided are: a sintered oxide which achieves low carrier density and high carrier mobility when configured as an oxide semiconductor thin-film by using the sputtering method; and a sputtering target using the same. This sintered oxide contains indium, gallium and magnesium as oxides. It is preferable for the gallium content to be 0.20-0.45, inclusive, in terms of an atomic ratio (Ga/(In+Ga)), the magnesium content to be at least 0.0001 and less than 0.05 in terms of an atomic ratio (Mg/(In+Ga+Mg)), and the sintering to occur at 1,200-1,550° C., inclusive. An amorphous oxide semiconductor thin-film obtained by forming this sintered oxide as a sputtering target is capable of achieving a carrier density of less than 3.0×1018cm−3, and a carrier mobility of 10 cm2V−1sec−1 or higher.

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    Titel:

    OXIDE SINTERED BODY, SPUTTERING TARGET, AND OXIDE SEMICONDUCTOR THIN FILM OBTAINED USING SPUTTERING TARGET

    Beteiligte:

    NAKAYAMA TOKUYUKI (Autor:in) / NISHIMURA EIICHIRO (Autor:in) / MATSUMURA FUMIHIKO (Autor:in) / IWARA MASASHI (Autor:in)

    Erscheinungsdatum:

    30.03.2017

    Medientyp:

    Patent

    Format:

    Elektronische Ressource

    Sprache:

    Englisch

    Klassifikation:

    IPC:  H01L Halbleiterbauelemente , SEMICONDUCTOR DEVICES / C04B Kalk , LIME / C23C Beschichten metallischer Werkstoffe , COATING METALLIC MATERIAL

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