材料科学
阈值电压
光电子学
氧化物
晶体管
异质结
电压
薄膜晶体管
半导体
溶解过程
背景(考古学)
场效应晶体管
氧气
热的
偏压
纳米技术
工作(物理)
场效应
低压
金属
氧化物薄膜晶体管
栅氧化层
MOSFET
作者
Chunlan Wang,Chi Luo,Zihan Qin,Zhiyang Jin,Jingli Wang,Xuming Zou,Cao Guan
摘要
ABSTRACT This work addresses the urgent demand for high‐performance and high‐stability oxide TFTs in the context of 3D integration and advanced logic technologies. This approach, under a low thermal budget (200°C), enhances the overall performance of the device by inducing a high‐density and high‐mobility 2D electron gas (2DEG) at the interface, optimizing the distribution of oxygen vacancies (V O ), and reducing the density of bulk defects. The results show that a 6‐nm ITO/18‐nm ITZON:O TFT achieves an effective field mobility of 109.35 cm 2 /Vs, a switching ratio of 10 8 , and a threshold voltage of −1.05 V. The threshold voltage shifts under positive and negative bias stress are stable within 1.05 and −0.25 V, respectively. This study also indicates that in the post‐treatment process with classification, the contribution of oxygen plasma treatment to the performance improvement is relatively significant. This strategy has strong universality for the material design and structure optimization of developing high‐performance oxide heterojunctions, and provides an effective solution for high‐performance oxide transistors compatible with the back‐end processes of complementary metal oxide semiconductor (CMOS).
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