Towards improved understanding and conductivity in band-gap-tunable zinc magnesium oxide
Alloying MgO into ZnO substantially increases the band-gap energy but reduces the conductivity and makes it harder to be doped with donors. While the former makes it attractive as energy-level-tunable transparent conducting contacts, the latter limits its applications. By combining high quality material synthesis, characterization and theory, we attribute the major limitation on the electrical conductivity of epitaxial Ga-doped Zn0.7Mg0.3O to intrinsic acceptors, such as zinc vacancies, which both trap carriers and increase the ionized impurity scattering (IIS). In addition, it shows that zinc ...
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