High-performance single-crystalline In2O3 field effect transistor toward three-dimensional large-scale integration circuits

Shunpei Yamazaki; Fumito Isaka; Toshikazu Ohno; Yuji Egi; Sachiaki Tezuka; Motomu Kurata; Hiromi Sawai; Ryosuke Motoyoshi; Etsuko Asano; Satoru Saito; Tatsuya Onuki; Takanori Matsuzaki; Michio Tajima

doi:10.1038/s43246-024-00625-x

Communications Materials (Sep 2024)

High-performance single-crystalline In2O3 field effect transistor toward three-dimensional large-scale integration circuits

Shunpei Yamazaki,
Fumito Isaka,
Toshikazu Ohno,
Yuji Egi,
Sachiaki Tezuka,
Motomu Kurata,
Hiromi Sawai,
Ryosuke Motoyoshi,
Etsuko Asano,
Satoru Saito,
Tatsuya Onuki,
Takanori Matsuzaki,
Michio Tajima

Affiliations

Shunpei Yamazaki: Semiconductor Energy Laboratory Co., Ltd. 398 Hase
Fumito Isaka: Semiconductor Energy Laboratory Co., Ltd. 398 Hase
Toshikazu Ohno: Semiconductor Energy Laboratory Co., Ltd. 398 Hase
Yuji Egi: Semiconductor Energy Laboratory Co., Ltd. 398 Hase
Sachiaki Tezuka: Semiconductor Energy Laboratory Co., Ltd. 398 Hase
Motomu Kurata: Semiconductor Energy Laboratory Co., Ltd. 398 Hase
Hiromi Sawai: Semiconductor Energy Laboratory Co., Ltd. 398 Hase
Ryosuke Motoyoshi: Semiconductor Energy Laboratory Co., Ltd. 398 Hase
Etsuko Asano: Semiconductor Energy Laboratory Co., Ltd. 398 Hase
Satoru Saito: Semiconductor Energy Laboratory Co., Ltd. 398 Hase
Tatsuya Onuki: Semiconductor Energy Laboratory Co., Ltd. 398 Hase
Takanori Matsuzaki: Semiconductor Energy Laboratory Co., Ltd. 398 Hase
Michio Tajima: Institute of Space and Astronautical Science/JAXA

DOI: https://doi.org/10.1038/s43246-024-00625-x
Journal volume & issue: Vol. 5, no. 1
pp. 1 – 11

Abstract

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Abstract Formation of a single crystalline oxide semiconductor on an insulating film as a channel material capable of three-dimensional (3D) stacking would enable 3D very-large-scale integration circuits. This study presents a technique for forming single-crystalline In2O3 having no grain boundaries in a channel formation region on an insulating film using the (001) plane of c-axis-aligned crystalline indium gallium zinc oxide as a seed. Vertical field-effect transistors using the single-crystalline In2O3 had an off-state current of 10−21 A μm−1 and electrical characteristics were improved compared with those using non-single-crystalline In2O3: the subthreshold slope was improved from 95.7 to 86.7 mV dec.−1, the threshold voltage showing normally-off characteristics (0.10 V) was obtained, the threshold voltage standard deviation was improved from 0.11 to 0.05 V, the on-state current was improved from 22.5 to 28.8 μA, and a 17-digit on/off ratio was obtained at 27 °C.

Published in Communications Materials

ISSN: 2662-4443 (Online)
Publisher: Nature Portfolio
Country of publisher: United States
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering: Materials of engineering and construction. Mechanics of materials
Website: https://www.nature.com/commsmat/

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