Effect of interface defects on electrical characteristics of a-ITGZO TFTs under bottom, top, and dual gatings

Mingu Kang; Kyoungah Cho; Minhyeok Seol; Sangsub Kim; Sangsig Kim

doi:10.1016/j.heliyon.2024.e34134

Effect of interface defects on electrical characteristics of a-ITGZO TFTs under bottom, top, and dual gatings

Mingu Kang, Kyoungah Cho, Minhyeok Seol, Sangsub Kim, Sangsig Kim

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

1 Citation (Scopus)

Abstract

Here, we investigate the effects of interface defects on the electrical characteristics of amorphous indium-tin-gallium-zinc oxide (a-ITGZO) thin-film transistors (TFTs) utilizing bottom, top, and dual gatings. The field-effect mobility (27.3 cm²/V∙s) and subthreshold swing (222 mV/decade) under a dual gating is substantially better than those under top (12.6 cm²/V∙s, 301 mV/decade) and bottom (11.1 cm²/V∙s, 487 mV/decade) gatings. For an a-ITGZO TFT, oxygen deficiencies are more prevalent in the bottom-gate dielectric interface than in the top-gate dielectric interface, and they are less prevalent inside the channel layer than at the interfaces, indicating that the presence of oxygen deficiencies significantly affects the field-effect mobility and subthreshold swing. Moreover, the variation in the electrical characteristics due to the positive bias stress is discussed here.

Original language	English
Article number	e34134
Journal	Heliyon
Volume	10
Issue number	13
DOIs	https://doi.org/10.1016/j.heliyon.2024.e34134
Publication status	Published - 2024 Jul 15

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Publisher Copyright:
© 2024

Keywords

Amorphous indium-tin-gallium-zinc-oxide
Bulk accumulation
Dual gate thin-film transistor
Interface trap states
TCAD simulation

ASJC Scopus subject areas

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10.1016/j.heliyon.2024.e34134

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title = "Effect of interface defects on electrical characteristics of a-ITGZO TFTs under bottom, top, and dual gatings",

abstract = "Here, we investigate the effects of interface defects on the electrical characteristics of amorphous indium-tin-gallium-zinc oxide (a-ITGZO) thin-film transistors (TFTs) utilizing bottom, top, and dual gatings. The field-effect mobility (27.3 cm2/V∙s) and subthreshold swing (222 mV/decade) under a dual gating is substantially better than those under top (12.6 cm2/V∙s, 301 mV/decade) and bottom (11.1 cm2/V∙s, 487 mV/decade) gatings. For an a-ITGZO TFT, oxygen deficiencies are more prevalent in the bottom-gate dielectric interface than in the top-gate dielectric interface, and they are less prevalent inside the channel layer than at the interfaces, indicating that the presence of oxygen deficiencies significantly affects the field-effect mobility and subthreshold swing. Moreover, the variation in the electrical characteristics due to the positive bias stress is discussed here.",

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author = "Mingu Kang and Kyoungah Cho and Minhyeok Seol and Sangsub Kim and Sangsig Kim",

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AU - Kang, Mingu

AU - Cho, Kyoungah

AU - Seol, Minhyeok

AU - Kim, Sangsub

AU - Kim, Sangsig

PY - 2024/7/15

Y1 - 2024/7/15

N2 - Here, we investigate the effects of interface defects on the electrical characteristics of amorphous indium-tin-gallium-zinc oxide (a-ITGZO) thin-film transistors (TFTs) utilizing bottom, top, and dual gatings. The field-effect mobility (27.3 cm2/V∙s) and subthreshold swing (222 mV/decade) under a dual gating is substantially better than those under top (12.6 cm2/V∙s, 301 mV/decade) and bottom (11.1 cm2/V∙s, 487 mV/decade) gatings. For an a-ITGZO TFT, oxygen deficiencies are more prevalent in the bottom-gate dielectric interface than in the top-gate dielectric interface, and they are less prevalent inside the channel layer than at the interfaces, indicating that the presence of oxygen deficiencies significantly affects the field-effect mobility and subthreshold swing. Moreover, the variation in the electrical characteristics due to the positive bias stress is discussed here.

AB - Here, we investigate the effects of interface defects on the electrical characteristics of amorphous indium-tin-gallium-zinc oxide (a-ITGZO) thin-film transistors (TFTs) utilizing bottom, top, and dual gatings. The field-effect mobility (27.3 cm2/V∙s) and subthreshold swing (222 mV/decade) under a dual gating is substantially better than those under top (12.6 cm2/V∙s, 301 mV/decade) and bottom (11.1 cm2/V∙s, 487 mV/decade) gatings. For an a-ITGZO TFT, oxygen deficiencies are more prevalent in the bottom-gate dielectric interface than in the top-gate dielectric interface, and they are less prevalent inside the channel layer than at the interfaces, indicating that the presence of oxygen deficiencies significantly affects the field-effect mobility and subthreshold swing. Moreover, the variation in the electrical characteristics due to the positive bias stress is discussed here.

KW - Amorphous indium-tin-gallium-zinc-oxide

KW - Bulk accumulation

KW - Dual gate thin-film transistor

KW - Interface trap states

KW - TCAD simulation

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Effect of interface defects on electrical characteristics of a-ITGZO TFTs under bottom, top, and dual gatings

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