Abstract
In this letter, we have reported electrical and physical properties of rapid thermal annealed (RTA) Al2O3 stacking dielectric on n-type 4H-SiC. The effects of SiN-reaction barrier layer (RBL) between Al2O3 and thermal-nitrided SiO2 on SiC-based metal-oxide-semiconductor characteristics have been investigated and compared. A significant reduction in oxide-semiconductor interface-trap density (Dit), improvement in dielectric breakdown field and reliability has been observed after the SiN-RBL has been introduced between Al2O3 and SiO2. High-resolution transmission electron microscope and Auger electron spectroscopy analyses reveal that the SiN-RBL suppresses Al diffusion into the nitrided SiO2 during RTA process.
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