Abstract
We show that N-doped ZnO films grown on sapphire can exhibit significant (∼1018 cm-3) room-temperature p-type behavior when sufficient nitrogen (N) is incorporated and the material is annealed appropriately. Substitutional N on the oxygen (O) sublattice is a deep acceptor; however, shallow acceptor complexes involve N, H, and zinc vacancies (V Zn). Combining secondary ion mass spectrometry, Raman-scattering, photoluminescence, and Hall-effect data, we establish the evolution of N from its initial incorporation on a Zn site to a final shallow acceptor complex VZn-NO-H with an ionization energy of ca. 130 meV. This complex is responsible for the observed p-type behavior. © 2013 AIP Publishing LLC.
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CITATION STYLE
Reynolds, J. G., Reynolds, C. L., Mohanta, A., Muth, J. F., Rowe, J. E., Everitt, H. O., & Aspnes, D. E. (2013). Shallow acceptor complexes in p-type ZnO. Applied Physics Letters, 102(15). https://doi.org/10.1063/1.4802753
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