High-performance thin-film transistors (TFTs) are the fundamental building blocks in realizing the potential applications of the next-generation displays. Atomically controlled superlattice structures are expected to induce advanced electric and optical performance due to two-dimensional electron gas system, resulting in high-electron mobility transistors. Here, we have utilized a semiconductor/insulator superlattice channel structure comprising of ZnO/Al2O3 layers to realize high-performance TFTs. The TFT with ZnO (5 nm)/Al2O3 (3.6 nm) superlattice channel structure exhibited high field effect mobility of 27.8 cm2/Vs, and threshold voltage shift of only < 0.5 V under positiveegative gate bias stress test during 2 hours. These properties showed extremely improved TFT performance, compared to ZnO TFTs. The enhanced field effect mobility and stability obtained for the superlattice TFT devices were explained on the basis of layer-by-layer growth mode, improved crystalline nature of the channel layers, and passivation effect of Al2O3 layers.
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机译:高性能薄膜晶体管(TFT)是实现下一代显示器潜在应用的基本要素。由于二维电子气系统,原子控制的超晶格结构有望产生先进的电学和光学性能,从而产生高电子迁移率晶体管。在这里,我们利用由ZnO / Al2O3层组成的半导体/绝缘体超晶格沟道结构来实现高性能TFT。具有ZnO(5 nm)/ Al2O3(3.6 nm)超晶格沟道结构的TFT表现出27.8 cm 2 / Vs的高场效应迁移率,在正/负栅极下阈值电压漂移仅为<0.5 V 2小时内进行偏压力测试。与ZnO TFT相比,这些特性显示了TFT性能的极大提高。基于逐层生长模式,沟道层结晶性的提高以及Al2O3层的钝化效应,对超晶格TFT器件获得的增强的场效应迁移率和稳定性进行了解释。
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