Title :
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
Author :
Zhili Zhang ; Kai Fu ; Xuguang Deng ; Xiaodong Zhang ; Yaming Fan ; Shichuang Sun ; Liang Song ; Zheng Xing ; Wei Huang ; Guohao Yu ; Yong Cai ; Baoshun Zhang
Author_Institution :
Key Lab. of Nanodevices & Applic., Suzhou Inst. of Nano-Tech & Nano-Bionics, Suzhou, China
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 109. Meanwhile, the E-mode MIS-HEMT dynamic RON is only 1.53 times larger than the static RON after off-state VDS stress of 500 V.
Keywords :
III-V semiconductors; MIS devices; aluminium compounds; chemical vapour deposition; fluorine; gallium compounds; high electron mobility transistors; ion implantation; wide band gap semiconductors; AlGaN-GaN; E-mode metal-insulator-semiconductor-high-electron mobility transistor; Si3N4; drain current; electron volt energy 10 keV; energy-absorbing layer; enhancement-mode MIS-HEMT fabrication technology; gate dielectric; low pressure chemical vapor deposition; on-off current ratio; silicon nitride layer; standard fluorine ion implantation; threshold voltage; Aluminum gallium nitride; Fluorine; Gallium nitride; HEMTs; Ion implantation; Logic gates; Wide band gap semiconductors; AlGaN/GaN high electron mobility transistor (HEMT); normally off; standard fluorine ion implantation;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2015.2483760
