采用低压退火的溶液法制备低温增强型非晶氧化物薄膜晶体管

Low-Temperature Enhancement-Mode Amorphous Oxide Thin-Film Transistors in Solution Process Using a Low-Pressure Annealing.

作者信息

Park Won, Park Jun-Hyeong, Eun Jun-Su, Lee Jinuk, Na Jeong-Hyeon, Lee Sin-Hyung, Jang Jaewon, Kang In Man, Kim Do-Kyung, Bae Jin-Hyuk

机构信息

School of Electronic and Electrical Engineering, Kyungpook National University, Daegu 41566, Republic of Korea.

出版信息

Nanomaterials (Basel). 2023 Aug 1;13(15):2231. doi: 10.3390/nano13152231.

DOI:10.3390/nano13152231

PMID:37570549

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10421181/

Abstract

The interest in low processing temperature for printable transistors is rapidly increasing with the introduction of a new form factor in electronics and the growing importance of high throughput. This paper reports the fabrication of low-temperature-processable enhancement-mode amorphous oxide thin-film transistors (TFTs) using the solution process. A facile low-pressure annealing (LPA) method is proposed for the activation of indium oxide (InO) semiconductors at a significantly low processing temperature of 200 °C. Thermal annealing at a pressure of about ~10 Torr induces effective condensation in InO even at a low temperature. As a result, the fabricated LPA InO TFTs not only functioned in enhancement mode but also exhibited outstanding switching characteristics with a high on/off current ratio of 4.91 × 10. Furthermore, the LPA InO TFTs exhibit stable operation under bias stress compared to the control device due to the low concentration of hydroxyl defects.

摘要

随着电子学中一种新的外形尺寸的引入以及高通量的重要性日益增加，对可印刷晶体管的低加工温度的兴趣正在迅速增长。本文报道了使用溶液工艺制造低温可加工增强型非晶氧化物薄膜晶体管（TFT）。提出了一种简便的低压退火（LPA）方法，用于在200°C的显著低温下激活氧化铟（InO）半导体。在约10托的压力下进行热退火即使在低温下也能在InO中诱导有效的凝聚。结果，制造的LPA InO TFT不仅在增强模式下起作用，而且还表现出出色的开关特性，开/关电流比高达4.91×10。此外，由于羟基缺陷浓度低，与对照器件相比，LPA InO TFT在偏置应力下表现出稳定的操作。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c869/10421181/74e24531205d/nanomaterials-13-02231-g002.jpg

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采用低压退火的溶液法制备低温增强型非晶氧化物薄膜晶体管

Low-Temperature Enhancement-Mode Amorphous Oxide Thin-Film Transistors in Solution Process Using a Low-Pressure Annealing.

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