Abstract

The electronic properties and p-type doping mechanism of InAs/GaAs core–shell nanowires are studied by using the first-principles calculations within density-functional theory. The core–shell structure of nanowires creates one-dimensional band offset at the InAs/GaAs interface. The magnitude of band offset depends on the sizes of core and shell. We find that a highly efficient p-type doping in InAs/GaAs core–shell nanowires can be achieved by introducing the Cd-impurity into the GaAs shell, utilizing the band-offset effect. It is because the valence-band electrons can spontaneously transfer to the Cd-impurity level, resulting in one-dimensional hole gas in the InAs core of nanowires.

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