Basal plane dislocations (BPD) were mostly eliminated in 4H-SiC epitaxy using post growth high temperature annealing in the range of 1600 degrees C - 1950 degrees C for 30s - 2 mins. The samples annealed at temperatures >1700 degrees C showed the best BPD reduction. However, surface morphology was degraded for samples annealed >1850 degrees C, and new BPDs were generated. A better capping technique was developed to improve the surface morphology and avoid generation of new BPDs, while significantly reducing the existing BPDs in the SiC epitaxial layers.
Basal Plane Dislocation Mitigation using High Temperature Annealing in 4H-SiC Epitaxy
Nipoti R
2013
Abstract
Basal plane dislocations (BPD) were mostly eliminated in 4H-SiC epitaxy using post growth high temperature annealing in the range of 1600 degrees C - 1950 degrees C for 30s - 2 mins. The samples annealed at temperatures >1700 degrees C showed the best BPD reduction. However, surface morphology was degraded for samples annealed >1850 degrees C, and new BPDs were generated. A better capping technique was developed to improve the surface morphology and avoid generation of new BPDs, while significantly reducing the existing BPDs in the SiC epitaxial layers.File in questo prodotto:
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