Al+ and B+ implantations into 6H-SiC epilayers and application to pn junction diodes

Aluminum (Al) and boron (B) ion implantations at room temperature into n-type 6H-SiC epilayers have been investigated. Rutherford backscattering spectroscopy (RBS) channeling measurements revealed larger lattice damage in Al⁺ implantation at a given total implantation dose. A nearly perfect electrical activation ratio (>90%) could be attained by high-temperature annealing at 1600°C for Al⁺ and 1700°C for B⁺ implantations. Mesa pn junction diodes formed by either Al⁺ or B⁺ implantation with a 1×10¹⁴ cm⁻² dose exhibited high blocking voltages of 950∼1070 V, which are 80∼90% of the ideal value predicted for the diode structure. The forward current can clearly be divided into two components of diffusion and recombination currents. B⁺-implanted diodes showed higher breakdown voltage on average but poor forward conduction. Comparison of the performance of Al⁺ and B⁺-implanted diodes is discussed.