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Channel Defect Profiling and Passivation for ZnO Thin-Film Transistors

机译：ZnO薄膜晶体管的沟道缺陷分析和钝化

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摘要

The electrical characteristics of Zinc oxide (ZnO) thin-film transistors are analyzed to apprehend the effects of oxygen vacancies after vacuum treatment. The energy level of the oxygen vacancies was found to be located near the conduction band of ZnO, which contributed to the increase in drain current (I ) via trap-assisted tunneling when the gate voltage (V ) is lower than the specific voltage associated with the trap level. The oxygen vacancies were successfully passivated after the annealing of ZnO in oxygen ambient. We determined that the trap-induced Schottky barrier lowering reduced a drain barrier when the drain was subjected to negative bias stress. Consequentially, the field effect mobility increased from 8.5 m V ·s to 8.9 m V ·s and on-current increased by ~13%.

机译：分析了氧化锌（ZnO）薄膜晶体管的电学特性，以了解真空处理后氧空位的影响。发现氧空位的能级位于ZnO的导带附近，当栅极电压（V）低于与之相关的特定电压时，通过陷阱辅助隧穿有助于漏极电流（I）的增加。陷阱级别。在氧气环境中ZnO退火后，氧空位已成功钝化。我们确定，当漏极受到负偏应力时，陷阱引起的肖特基势垒降低会降低漏极势垒。因此，场效应迁移率从8.5 m V·s增加到8.9 m V·s，并且导通电流增加了〜13％。

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期刊名称 Nanomaterials
作者
Soo Cheol Kang; So Young Kim; Sang Kyung Lee; Kiyung Kim; Billal Allouche; Hyeon Jun Hwang; Byoung Hun Lee;
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作者单位

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年(卷),期 2020(10),6
年度 2020
页码 -1
总页数 8
原文格式 PDF
正文语种
中图分类生化遗传学;生化药理学;
关键词
ZnO thin-film transistors; oxygen vacancy; vacuum treatment; oxygen annealing; trap-induced Schottky barrier lowering;

机译：ZnO薄膜晶体管;氧空位;真空处理;氧退火;陷阱诱导的肖特基势垒降低;
入库时间 2022-08-21 11:51:52

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3. Effects of Thermal Annealing on ZnO Thin-Film Transistor Characteristics and the Application of Excimer Laser Annealing in Plastic-Based ZnO Thin-Film Transistors [J] . Mitsuru Nakata, Kazushige Takechi, Toshimasa Eguchi, Japanese journal of applied physics . 2009,第8issue1期

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4. Mechanically Flexible Vertical Thin-Film Transistor with Sub-Micrometer Channel Length Using ZnO Channel and Zeocoat^TM Spacer on Ultra-Thin Polyimide Substrate [C] . Hyeong-Rae Kim, Sol-Mi Kwak, Furutua Mamoru, International Workshop on Active-Matrix Flatpanel Displays and Devices . 2019

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5. Approaches and evaluation of architectures for chemical and biological sensing based on organic thin-film field-effect transistors and immobilized ion channels integrated with silicon solid-state devices. [D] . Fine, Daniel Hayes. 2007

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Channel Defect Profiling and Passivation for ZnO Thin-Film Transistors

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