用原子层沉积Al2O3作为栅极电介质的反转沟道GaN MOSFET

Y. Chang, W. Chang, H. Chiu, Y. H. Chang, L. T. Tung, C. H. Lee, M. Hong, J. Kwo, J. Hong, C. Tsai
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引用次数: 7

摘要

利用原子层沉积(ALD) Al2O3作为栅极介质,首次成功制备了具有良好漏极I-V和转移特性的反沟道GaN mosfet。漏极电流与栅极长度成比例,在栅极长度为1 μ m的器件中,在栅极电压(Vgs)为8 V和漏极电压(Vds)为10V时,最大漏极电流为10 mA/mm。在极低的断开状态泄漏4×10−13A/µm的情况下,实现了2.5×105的高离子/断开比。此外,耗尽模式(d模式)GaN mosfet也得到了证明,在4 μ m栅极长度的器件中,导通电阻极低,为2.5 mΩ⋅cm2,高迁移率为350 cm2/Vs,最大漏极电流为300 mA/mm。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Inversion-channel GaN MOSFET using atomic-layer-deposited Al2O3 as gate dielectric
For the first time, inversion-channel GaN MOSFETs using atomic-layer-deposited (ALD) Al2O3 as a gate dielectric have been successfully fabricated, showing well-behaved drain I–V and transfer characteristics. The drain current was scaled with gate length, showing a maximum drain current of 10 mA/mm in a device of 1 µm gate length, at a gate voltage (Vgs) of 8 V and a drain voltage (Vds) of 10V. High Ion/Ioff ratio of 2.5×105 was achieved with a very low off-state leakage of 4×10−13A/µm. In addition, depletion-mode (D-mode) GaN MOSFETs have also been demonstrated, showing a very low on-resistance of 2.5 mΩ⋅cm2, a high mobility of 350 cm2/Vs, and a high maximum drain current of 300 mA/mm in a device of 4 µm gate length.
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