原子层沉积 AlOxNy/Al2O3 栅介质的氧化物电荷工程：实现增强型 GaN 器件的途径。

Oxide Charge Engineering of Atomic Layer Deposited AlOxNy/Al2O3 Gate Dielectrics: A Path to Enhancement Mode GaN Devices.

机构信息

Department of Materials Science and Engineering, Stanford University , Stanford, California 94305, United States.

出版信息

ACS Appl Mater Interfaces. 2016 Aug 17;8(32):21089-94. doi: 10.1021/acsami.6b03862. Epub 2016 Aug 8.

Abstract

Nitrogen incorporation to produce negative fixed charge in Al2O3 gate insulator layers is investigated as a path to achieve enhancement mode GaN device operation. A uniform distribution of nitrogen across the resulting AlOxNy films is obtained using N2 plasma enhanced atomic layer deposition (ALD). The flat band voltage (Vfb) increases to a significantly more positive value with increasing nitrogen concentration. Insertion of a 2 nm thick Al2O3 interlayer greatly decreases the trap density of the insulator/GaN interface, and reduces the voltage hysteresis and frequency dispersion of gate capacitance compared to single-layer AlOxNy gate insulators in GaN MOSCAPs.

摘要

氮的掺入在 Al2O3 栅极绝缘层中产生负固定电荷，被认为是实现 GaN 器件增强模式操作的途径。使用 N2 等离子体增强原子层沉积（ALD）获得了在所得 AlOxNy 薄膜中均匀分布的氮。随着氮浓度的增加，平带电压（Vfb）显著增加到更正的值。插入 2nm 厚的 Al2O3 层间极大地降低了绝缘体/ GaN 界面的陷阱密度，与 GaN MOSCAPs 中的单层 AlOxNy 栅极绝缘体相比，降低了栅电容的电压滞后和频率色散。

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原子层沉积 AlOxNy/Al2O3 栅介质的氧化物电荷工程：实现增强型 GaN 器件的途径。

Oxide Charge Engineering of Atomic Layer Deposited AlOxNy/Al2O3 Gate Dielectrics: A Path to Enhancement Mode GaN Devices.

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