氧化钛作为栅介质的石墨烯场效应晶体管及其隧穿机制。

Oxidized titanium as a gate dielectric for graphene field effect transistors and its tunneling mechanisms.

机构信息

Microelectronics Research Center, The University of Texas at Austin , Austin, Texas 78758, United States.

出版信息

ACS Nano. 2014 Oct 28;8(10):10480-5. doi: 10.1021/nn5038509. Epub 2014 Oct 10.

Abstract

We fabricate and characterize a set of dual-gated graphene field effect transistors using a novel physical vapor deposition technique in which titanium is evaporated onto the graphene channel in 10 Å cycles and oxidized in ambient to form a top-gate dielectric. A combination of X-ray photoemission spectroscopy, ellipsometry, and transmission electron microscopy suggests that the titanium is oxidizing in situ to titanium dioxide. Electrical characterization of our devices yields a dielectric constant of κ = 6.9 with final mobilities above 5500 cm(2)/(V s). Low temperature analysis of the gate-leakage current in the devices gives a potential barrier of 0.78 eV in the conduction band and a trap depth of 45 meV below the conduction band.

摘要

我们使用一种新型的物理气相沉积技术制造和表征了一组双栅石墨烯场效应晶体管，其中钛以 10 Å 的周期蒸发在石墨烯通道上，并在环境中氧化形成顶栅介电层。X 射线光电子能谱、椭圆光度法和透射电子显微镜的组合表明，钛正在原位氧化为二氧化钛。我们器件的电特性分析得出介电常数 κ = 6.9，最终迁移率高于 5500 cm²/（V s）。器件中栅漏电流的低温分析给出了导带中 0.78 eV 的势垒和导带下方 45 meV 的陷阱深度。

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