Abstract

ABSTRACTCubic SiC was grown on Si substrates by a combination of carbonization and consecutive chemical vapor deposition. Grown layers on the (100) and (111) substrates were single crystalline cubic SiC. Those on the (110) and (211) were poly-crystalline. A model for the mechanism of carbonization was proposed as a result of these observations. Based on this model, the origin of antiphase boundaries were made clear, and antiphase boundaries were expected to be eliminated by controlling atomic steps of the Si surface. In fact, antiphase boundaries were eliminated by introduction of off orientation of Si(lO0) substrates. The relationship between generation of antiphase boundaries and off orientation of the surface was investigated by using spherically polished Si(100) substrates. Off orientation towards (011) was found to be effective for elimination of antiphase boundaries. Off orientation except for towards (011) resulted in generation of antiphase boundaries.

Full Text
Published version (Free)

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call