Junichi Koezuka scite author profile

Our crystalline In–Ga–Zn oxide (IGZO) thin film has a c‐axis‐aligned crystal (CAAC) structure and maintains crystallinity even on an amorphous base layer. Although the crystal has c‐axis alignment, its a‐axis and b‐axis have random arrangement; moreover, a clear grain boundary is not observed. We fabricated a back‐channel‐etched thin‐film transistor (TFT) using the CAAC‐IGZO film. Using the CAAC‐IGZO film, more stable TFT characteristics, even with a short channel length, can be obtained, and the instability of the back channel, which is one of the biggest problems of IGZO TFTs, is solved. As a result, we improved the process of manufacturing back‐channel‐etched TFTs.

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56.1: Development of IGZO‐TFT and Creation of New Devices Using IGZO‐TFT

Kataoka¹,

Imai²,

Nakata³

et al. 2013

Symp Digest of Tech Papers

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Origin of major donor states in In–Ga–Zn oxide

Nakashima

Oota

Ishihara

et al. 2014

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To clarify the origin of the major donor states in indium gallium zinc oxide (IGZO), we report measurement results and an analysis of several physical properties of IGZO thin films. Specifically, the concentration of H atoms and O vacancies (V O ), carrier concentration, and conductivity are investigated by hard X-ray photoelectron spectroscopy, secondary ion mass spectroscopy, thermal desorption spectroscopy, and Hall effect measurements. The results of these experiments suggest that the origin of major donor states is H occupancy of V O sites. Furthermore, we use first-principles calculations to investigate the influence of the coexistence of V O and H in crystalline InGaO 3 (ZnO) m (m ¼ 1). The results indicate that when H is trapped in V O , a stable complex is created that serves as a shallow-level donor. V C 2014 AIP Publishing LLC.

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52.3: Development of Back‐channel‐etched TFT Using C‐Axis Aligned Crystalline In‐Ga‐Zn‐Oxide

Koezuka¹,

Okazaki²,

Hirohashi

et al. 2013

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Achievement of a high-mobility FET with a cloud-aligned composite oxide semiconductor

Yamazaki

Shima²,

Hosaka³

et al. 2016

Jpn. J. Appl. Phys.

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We have recently discovered that films of a widely used In–Ga–Zn oxide (IGZO) with have different material composition states when sputter-deposited under different conditions using the same polycrystalline IGZO target. Significant improvements in on-state current and mobility (as high as 40 cm2·V−1·s−1) are obtained. The results of local composition analysis indicate that the deposited film is not composed of any known homogeneous IGZO compound and that the components of this film are separated into two types of nanoparticle regions: one type is composed mainly of GaO x and GaZnO x , which contribute to on/off (switching) characteristics, and the other is composed mainly of InO x and InZnO x , which contribute to on-state characteristics. These regions constitute a new type of oxide semiconductor (OS) film. The nanoparticles with a blurry boundary extend like a cloud, probably complementing one another. We consider that this OS film has a novel composition, which can be described as a “cloud-aligned composite OS” (CAC-OS).

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Junichi Koezuka

Back‐channel‐etched thin‐film transistor using c‐axis‐aligned crystal In–Ga–Zn oxide

56.1: Development of IGZO‐TFT and Creation of New Devices Using IGZO‐TFT

Origin of major donor states in In–Ga–Zn oxide

52.3: Development of Back‐channel‐etched TFT Using C‐Axis Aligned Crystalline In‐Ga‐Zn‐Oxide

Achievement of a high-mobility FET with a cloud-aligned composite oxide semiconductor

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