Improved electrical performance of solution-processed zinc oxide-based thin-film transistors with bilayer structures

IF 3.7 3区 工程技术 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY Journal of Information Display Pub Date : 2021-12-21 DOI:10.1080/15980316.2021.2011443
Kazuyori Oura, H. Wada, Masatoshi Koyama, T. Maemoto, S. Sasa
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引用次数: 4

Abstract

A bilayer thin-film transistor (TFT) structure with ZnO and Al-doped ZnO (AZO) was fabricated using a solution process. The film thickness and sintering atmosphere of ZnO and AZO were controlled and then evaluated by measuring their electrical characteristics. By changing the sintering atmosphere, carriers attributed to oxygen vacancies in the thin film increased. Moreover, the ZnO single-layer TFT sintered in N2 exhibited good electrical characteristics. In the ZnO/AZO bilayer TFT laminated with the ZnO sintered in N2 and high-resistance AZO thin films, electrical characteristics, such as the On/Off ratio and subthreshold swing, improved compared to those of the ZnO-TFT. The On/Off ratio of the ZnO/AZO-TFT using the AZO thin film sintered in an O2 atmosphere notably improved to 3.7 × 105 compared to that of the ZnO-TFT (1.7 × 104). In addition, the subthreshold swing in the ZnO/AZO-TFT was 0.36 V/dec, while the field-effect mobility was 2.2 × 10−1 cm2/Vs, thereby exhibiting the best electrical characteristics among the fabricated samples. According to the grazing-incidence X-ray diffraction measurement, the ZnO particle size and crystallinity of the ZnO/AZO bilayer were higher than those of the ZnO single layer. Therefore, improvement of the electrical characteristics was confirmed.
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提高溶液法制备双层结构氧化锌薄膜晶体管的电性能
采用溶液法制备了ZnO和al掺杂ZnO的双层薄膜晶体管(TFT)结构。控制ZnO和AZO的膜厚和烧结气氛,然后通过测量其电学特性来评价其性能。通过改变烧结气氛,薄膜中由氧空位引起的载流子增加。在N2中烧结的ZnO单层TFT具有良好的电学特性。与ZnO-TFT相比,在N2中烧结ZnO和高阻AZO薄膜层合的ZnO/AZO双层TFT的电学特性,如开/关比和亚阈值摆动都有所改善。在O2气氛下烧结的AZO薄膜的ZnO/AZO- tft的通断比明显提高到3.7 × 105,而ZnO- tft的通断比为1.7 × 104。此外,ZnO/AZO-TFT的亚阈值摆幅为0.36 V/dec,场效应迁移率为2.2 × 10−1 cm2/Vs,在制备的样品中表现出最佳的电学特性。根据掠入射x射线衍射测量,ZnO/AZO双层ZnO的粒度和结晶度均高于单层ZnO。因此,电气特性的改善得到了证实。
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来源期刊
Journal of Information Display
Journal of Information Display MATERIALS SCIENCE, MULTIDISCIPLINARY-
CiteScore
7.10
自引率
5.40%
发文量
27
审稿时长
30 weeks
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