Abstract
A novel normally-off AIN/GaN metal-oxide-semiconductor high electron mobility transistors (MOSHEMT) on 100-mm Si substrates for high-power applications is demonstrated for the first time by means of a selective thermal oxidation of AIN. The formation of a high-quality insulating AION layer resulting from the dry thermal oxidation of AIN at 900 °C in oxygen has been identified by transmission electron microscopy and X-ray photoelectron spectroscopy. The AIN thermal oxidation appears to be highly selective toward the SiN cap layer allowing the local depletion of the 2-D electron gas (self-aligned to the gate) and thus the achievement of normally-off operation. Threshold voltage (VT) of +0.8 V and drain leakage current at VGS = 0 V well below 1 μA/mm are obtained reproducibly over the wafer. The comparison of the fabricated MOSHEMTs with the control sample (identical but nonoxidized) reveals a drastic shift of VT toward positive values and three to four orders of magnitude drain leakage current reduction.
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