Abstract

The energetics, structures, and properties of lattice defects in semiconductors are discussed on the basis of predictions using first-principles calculations. New insights into the atomistic and electronic structure of point defects are obtained, including significant off-centering of Ti antisite defects and local octahedral rotation around O vacancies in SrTiO3, both of which are accompanied by electron localization. Another example is the formation of a luminous dopant-vacancy complex in cubic BN. Band alignment at semiconductor surfaces and heterointerfaces is also discussed, with a focus on approximation dependence.

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