Normally Off AlGaN/GaN MIS-High-Electron Mobility Transistors Fabricated by Using Low Pressure Chemical Vapor Deposition Si3N4 Gate Dielectric and Standard Fluorine Ion Implantation

Zhang, ZL(张志利)
Fu, K(付凯)
Deng, XG(邓旭光)
Zhang, XD(张晓东)
Fan, YM(范亚明)
Sun, SC(孙世闯)
Song, L(宋亮)
Xing, Z(邢政)
Huang, W(黄伟)
Yu, GH(于国浩)
Cai, Y(蔡勇)
Zhang, BS(张宝顺)
Zhang, ZL (张志利)

Publication date

January 2015

DOI

10.1109/LED.2015.2483760

Abstract

This letter presents a fabrication technology of enhancement-mode (E-mode) AlGaN/GaN metal-insulator-semiconductor high-electron mobility transistors (MIS-HEMTs) using 10 keV fluorine ion implantation. An 8 nm low-pressure chemical vapor deposition silicon nitride layer was deposited on the AlGaN as gate dielectric and energy-absorbing layer that slows down the high energy (10 keV) fluorine ions to reduce the implantation damage. The E-mode MIS-HEMTs exhibit a threshold voltage as high as +3.3 V with a maximum drain current over 200 mA/mm (250 mA/mm for depletion-mode MIS-HEMTs) and a high on/off current ratio of 10(9). Meanwhile, the E-mode MIS-HEMT dynamic R-ON is only 1.53 times larger than the static R-ON after off-state V-DS stress of ...

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Normally Off AlGaN/GaN MIS-High-Electron Mobility Transistors Fabricated by Using Low Pressure Chemical Vapor Deposition Si3N4 Gate Dielectric and Standard Fluorine Ion Implantation

Abstract

Extracted data

Normally Off AlGaN/GaN MIS-High-Electron Mobility Transistors Fabricated by Using Low Pressure Chemical Vapor Deposition Si3N4 Gate Dielectric and Standard Fluorine Ion Implantation

Abstract

Extracted data

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