Hae-Cheon Kim scite author profile

This paper demonstrates the effect of fluoride-based plasma treatment on the performance of Al 2 O 3 /AlGaN/ GaN metal-insulator-semiconductor heterostructure field effect transistors (MISHFETs) with a T-shaped gate length of 0.20 μm. For the fabrication of the MISHFET, an Al 2 O 3 layer as a gate dielectric was deposited using atomic layer deposition, which greatly decreases the gate leakage current, followed by the deposition of the silicon nitride layer. The silicon nitride layer on the gate foot region was then selectively removed through a reactive ion etching technique using CF 4 plasma. The etching process was continued for a longer period of time even after the complete removal of the silicon nitride layer to expose the Al 2 O 3 gate dielectric layer to the plasma environment. The thickness of the Al 2 O 3 gate dielectric layer was slowly reduced during the plasma exposure. Through this plasma treatment, the device exhibited a threshold voltage shift of 3.1 V in the positive direction, an increase of 50 mS/mm in trans conductance, a degraded off-state performance and a larger gate leakage current compared with that of the reference device without a plasma treatment.

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Development of SoP transceiver for 60-GHz pico-cell communications

Chung

Choi

Sim

et al. 2008

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Substrate Effects on the Electrical Properties in GaN-Based High Electron Mobility Transistors

et al. 2021

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We report the electrical characteristics of GaN-based high electron mobility transistors (HEMTs) operated on various substrates/films. For the detailed investigation and comparison of the electrical properties of GaN-based HEMTs according to the substrates/films, GaN-based HEMTs were processed using 4-inch sapphire substrates and separated from their original substrates through the laser lift-off technique. The separated AlGaN/GaN films including processed GaN-based HEMTs were bonded to AlN substrate or plated with a 100 µm-thick Cu at the back-side of the devices since AlN substrate and Cu film exhibit higher thermal conductivity than the sapphire substrate. Compared to the sapphire substrate, DC and RF properties such as drain current, transconductance, cut-off frequency and maximum oscillation frequency were improved, when GaN-based HEMTs were operated on AlN substrate or Cu film. Our systematic study has revealed that the device property improvement results from the diminishment of the self-heating effect, increase in carrier mobility under the gated region, and amelioration of sheet resistance at the access region. C(V) and pulse-mode stress measurements have confirmed that the back-side processing for the device transfer from sapphire substrate onto AlN substrate or Cu film did not induce the critical defects close to the AlGaN/GaN hetero-interface.

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Highly miniaturized passive components employing novel π-type multiple coupled microstrip lines

Yun

Park

Kim

et al. 2007

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Hae-Cheon Kim

Normally-off dual gate AlGaN/GaN MISFET with selective area-recessed floating gate

Effect of Fluoride-based Plasma Treatment on the Performance of AlGaN/GaN MISFET

Development of SoP transceiver for 60-GHz pico-cell communications

Substrate Effects on the Electrical Properties in GaN-Based High Electron Mobility Transistors

Highly miniaturized passive components employing novel π-type multiple coupled microstrip lines

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