Influence of annealing temperature on the electrical and structural properties of palladium Schottky contacts on n-type 4H–SiC

Highlights

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Annealing effects on electrical and structural properties of Pd/4H–SiC SBD are studied.

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Maximum barrier height is achieved on Pd/4H–SiC SBD after annealing at 300 °C.

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Pd–Si interfacial phases are responsible for increase in barrier height upon annealing at 300 °C.

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Overall surface morphology of the SBD did not change significantly at elevated temperatures.

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Abstract

We have investigated the electrical and structural properties of Pd/4H–SiC Schottky diodes as a function of annealing temperature using I–V, C–V, AES and XRD measurements. The barrier height (BH) of the as-deposited Pd/4H–SiC Schottky diode is found to be 0.71 eV (I–V) and 1.18 eV (C–V), respectively. When the Pd/4H–SiC Schottky diode is annealed at 300 °C, a maximum BH is achieved and corresponding values are 0.89 eV (I–V) and 1.30 eV (C–V). Further, an increase in annealing temperature up to 400 °C, the BH decreases to 0.81 eV (I–V) and 1.20 eV (C–V). Using Cheung’s functions, the barrier height (ϕ_b), ideality factor (n), and series resistance (R_s) are also calculated. Experimental results clearly indicate that the optimum annealing temperature for the Pd Schottky contact to 4H–SiC is 300 °C. According to the Auger electron spectroscopy (AES) and X-ray diffraction (XRD) results, the formation of interfacial phases at the Pd/4H–SiC interface could be the reason for the increase or decrease in BH upon annealing at elevated temperatures. The overall surface morphology of the Pd/4H–SiC Schottky diode is fairly smooth upon annealing temperatures.

Keywords

• SiC; 
• Pd Schottky contacts; 
• Rapid thermal annealing effects; 
• Depth profiles; 
• X-ray diffraction
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• Source:Sciencedirect
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