Effects of TiOx Interlayer on Performance of Dual-Gate InGaZnO Thin-Film Transistor

Chao Zhang, Ding Li, Xiaodong Huang
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Abstract

InGaZnO is sensitive to the air moisture, which leads to the formation of metal-hydroxyl defects at the back channel and thus causes TFT stability issues. In this work, dual-gate TFT with an unisolated top gate directly contacting with IGZO is used to suppress the above stability issues because of its simple fabrication processes. On one hand, increasing the top gate region (or passivation region) is effective to block the moisture absorption; on the other hand, the post-deposition annealing facilitates the formation of an interfacial layer TiOx at the unisolated gate/IGZO back interface. It is found that this TiOx acts as acceptor-like deep-level traps and the TiOx region increases with increasing the top gate region, which is detrimental to the TFT performance and especially the sub-threshold swing and off-current.
TiOx中间层对双栅InGaZnO薄膜晶体管性能的影响
InGaZnO对空气湿度敏感,导致在后通道形成金属羟基缺陷,从而导致TFT稳定性问题。在这项工作中,由于其简单的制造工艺,使用具有非隔离顶栅直接与IGZO接触的双栅TFT来抑制上述稳定性问题。一方面,增加顶栅区(或钝化区)可有效阻断吸湿;另一方面,沉积后退火有利于在非隔离栅/IGZO背面界面处形成界面层TiOx。研究发现,TiOx作为类受体的深能级陷阱,TiOx区域随着顶栅极区域的增大而增大,这不利于TFT的性能,尤其是亚阈值摆幅和关断电流。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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