Mesostructured HfxAlyO2 Thin Films as Reliable and Robust Gate Dielectrics with Tunable Dielectric Constants for High-Performance Graphene-Based Transistors

详细信息    查看全文

• 作者：Yunseong Lee ; Woojin Jeon ; Yeonchoo Cho ; Min-Hyun Lee ; Seong-Jun Jeong ; Jongsun Park ; Seongjun Park
• 刊名：ACS Nano
• 出版年：2016
• 出版时间：July 26, 2016
• 年：2016
• 卷：10
• 期：7
• 页码：6659-6666
• 全文大小：503K
• 年卷期：0
• ISSN：1936-086X

文摘

We introduce a reliable and robust gate dielectric material with tunable dielectric constants based on a mesostructured Hf_xAl_yO₂ film. The ultrathin mesostructured Hf_xAl_yO₂ film is deposited on graphene via a physisorbed-precursor-assisted atomic layer deposition process and consists of an intermediate state with small crystallized parts in an amorphous matrix. Crystal phase engineering using Al dopant is employed to achieve HfO₂ phase transitions, which produce the crystallized part of the mesostructured Hf_xAl_yO₂ film. The effects of various Al doping concentrations are examined, and an enhanced dielectric constant of ∼25 is obtained. Further, the leakage current is suppressed (∼10^–8 A/cm²) and the dielectric breakdown properties are enhanced (breakdown field: ∼7 MV/cm) by the partially remaining amorphous matrix. We believe that this contribution is theoretically and practically relevant because excellent gate dielectric performance is obtained. In addition, an array of top-gated metal–insulator–graphene field-effect transistors is fabricated on a 6 in. wafer, yielding a capacitance equivalent oxide thickness of less than 1 nm (0.78 nm). This low capacitance equivalent oxide thickness has important implications for the incorporation of graphene into high-performance silicon-based nanoelectronics.