Author: Zheli Wang Jianjun Zhou Yuechan Kong Cen Kong Xun Dong Yang Yang Tangsheng Chen
Publisher: IOP Publishing
ISSN: 1674-4926
Source: Journal of Semiconductors, Vol.36, Iss.9, 2015-09, pp. : 94004-94007
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Abstract
A high-performance enhancement-mode (E-mode) gallium nitride (GaN)-based metal–insulator–semiconductor high electron mobility transistor (MIS-HEMT) that employs a 5-nm-thick aluminum gallium nitride (Al0.3Ga0.7N) as a barrier layer and relies on silicon nitride (SiN) passivation to control the 2DEG density is presented. Unlike the SiN passivation, aluminum oxide (Al2O3) by atomic layer deposition (ALD) on AlGaN surface would not increase the 2DEG density in the heterointerface. ALD Al2O3 was used as gate insulator after the depletion by etching of the SiN in the gate region. The E-mode MIS-HEMT with gate length (LG) of 1 μm showed a maximum drain current density (IDS) of 657 mA/mm, a maximum extrinsic transconductance (gm) of 187 mS/mm and a threshold voltage (Vth) of 1 V. Comparing with the corresponding E-mode HEMT, the device performances had been greatly improved due to the insertion of Al2O3 gate insulator. This provided an excellent way to realize E-mode AlGaN/GaN MIS-HEMTs with both high Vth and IDS.
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