高可靠性Cu-BEC结构IGZO TFT的制备

IF 0.7 4区 物理与天体物理 Q3 CRYSTALLOGRAPHY
Xiao Wang, S. Ge, Shan Li
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引用次数: 0

摘要

背沟道蚀刻(BCE)非晶InGaZnO(a-IGZO)可以用更少的光刻掩模制造,并实现更小的寄生电容。然而,BCE a-IGZO TFT的背沟道容易受到酸和等离子体损伤,这导致TFT的均匀性和稳定性问题。特别是,随着阵列栅极驱动器(GOA)技术的引入,提高TFT的电学均匀性和稳定性变得越来越迫切。因此,开发高可靠性BCE IGZO TFT是技术和市场的迫切要求。研究了基于BCE结构的a-IGZO TFT的电学特性。对钝化层、滤色器材料的选择和GOA TFT结构的设计进行了改进,以减少H2O分子吸附在BCE结构的背沟道上的影响。负偏压和正偏压温度应力(N/PBS)结果表明,优化后的GOA TFT具有良好的器件可靠性,在80℃-30 V的栅极电压下,Vth漂移小于1 V达2000 s。最后,展示了一种高性能的215.9mm(85in)8K4K 120Hz GOA LCD。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Fabrication of high-reliability Cu BCE-structure IGZO TFTs
Back channel etched (BCE) amorphous InGaZnO (a-IGZO) can be fabricated with fewer photolithography masks and achieve smaller parasitic capacitance. However, the back channel of the BCE a-IGZO TFT is vulnerable to acid and plasma damage, which leads to problems of TFT uniformity and stability. In particular, with the introduction of gate driver on array (GOA) technology, it is increasingly urgent to improve the electrical uniformity and stability of TFTs. Therefore, it is an urgent requirement for technology and market to develop high reliability BCE IGZO TFTs. The electrical characteristic of the BCE configuration based a-IGZO TFTs were studied. The passivation layer, the selection of color filter material and design of GOA TFT structure were modified for lessening the influence of H2O molecules adsorbing on the back channel of the BCE-structure. The negative and positive bias temperature stress(N/PBTS) results revealed that the optimized GOA TFTs exhibited good device reliability-the Vth shift under gate voltage of -30 V at 80℃ is less than 1 V for 2 000 s. Finally, a high performance 215.9 mm(85 in) 8K4K 120 Hz GOA LCD was demonstrated.
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来源期刊
液晶与显示
液晶与显示 CRYSTALLOGRAPHY-
CiteScore
1.40
自引率
50.00%
发文量
4939
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