带有原子层沉积生长的 Al2O3 栅极绝缘体的 In-Si-O 薄膜晶体管

IF 2.8 4区 工程技术 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC
S. Arulkumar, S. Parthiban, R. D. Eithiraj
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引用次数: 0

摘要

在这项研究中,利用射频(RF)磁控溅射技术在室温下沉积了氧化铟硅(ISO)有源沟道层。氧化铝(Al2O3)通过原子层沉积(ALD)沉积在 p 型晶体(100)硅(p-Si)衬底上,分别作为薄膜晶体管(TFT)的电介质和栅极。在室温下,利用射频溅射沉积了钼(Mo)金属触点作为源极和漏极。采用无掩模光刻工艺对有源沟道层和源/漏极触点进行图案化,沟道宽度(W)和长度(L)各不相同。经计算,Mo/Al2O3/p-Si 金属绝缘体-半导体 (MIS) 结构的单位面积平均电容 (Ci) 和介电常数 (κ)分别为 56.05 nF/cm2 和 6.33。经过 200 °C 退火处理的 ISO TFT 长度 (L) 为 100 µm,宽度 (W) 为 200 µm,其饱和迁移率 (µsat) 为 20.24 cm2/V-s,导通漏极电流比 (ION/IOFF) 为 1 × 10⁹,导通电压 (VON) 为 - 2 V,阈下摆幅 (SS) 为 0.52 V/dec。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
In–Si–O thin-film transistors with atomic layer deposition-grown Al2O3 gate insulator

In this work, indium silicon oxide (ISO) active channel layers were deposited at room temperature using radio frequency (RF) magnetron sputtering. Aluminium oxide (Al2O3), deposited via atomic layer deposition (ALD) over a p-type crystalline (100) silicon (p-Si) substrate, served as the dielectric and gate electrode respectively, for the construction of thin-film transistors (TFTs). A molybdenum (Mo) metal contact was deposited as the source and drain using RF sputtering at room temperature. The maskless photolithography process was employed for patterning the active channel layer and source/drain contacts with various channel widths (W) and lengths (L). The average capacitance per unit area (Ci) and the dielectric constant (κ) of the Mo/Al2O3/p-Si metal–insulator-semiconductor (MIS) structure were calculated to be 56.05 nF/cm2 and 6.33, respectively. The ISO TFT, post-annealed at 200 °C, with a length (L) of 100 µm and a width (W) of 200 µm, exhibited a saturation mobility (µsat) of 20.24 cm2/V·s, an on–off drain current ratio (ION/IOFF) of 1 × 10⁹, a turn-on voltage (VON) of − 2 V, and a sub-threshold swing (SS) of 0.52 V/dec.

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来源期刊
Journal of Materials Science: Materials in Electronics
Journal of Materials Science: Materials in Electronics 工程技术-材料科学:综合
CiteScore
5.00
自引率
7.10%
发文量
1931
审稿时长
2 months
期刊介绍: The Journal of Materials Science: Materials in Electronics is an established refereed companion to the Journal of Materials Science. It publishes papers on materials and their applications in modern electronics, covering the ground between fundamental science, such as semiconductor physics, and work concerned specifically with applications. It explores the growth and preparation of new materials, as well as their processing, fabrication, bonding and encapsulation, together with the reliability, failure analysis, quality assurance and characterization related to the whole range of applications in electronics. The Journal presents papers in newly developing fields such as low dimensional structures and devices, optoelectronics including III-V compounds, glasses and linear/non-linear crystal materials and lasers, high Tc superconductors, conducting polymers, thick film materials and new contact technologies, as well as the established electronics device and circuit materials.
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