Role of Native Point Defects and Ga Diffusion on Electrical Properties of Degenerate Ga-Doped ZnO

Authors

David C. Look, Wright State University - Main CampusFollow
K. D. Leedy, Wright-Patterson Air Force
D. L. Agresta, Wright-Patterson Air Force

Document Type

Article

Publication Date

10-1-2013

Identifier/URL

40773247 (Pure)

Abstract

We used a complement of depth-resolved cathodoluminescence spectroscopy (DRCLS), X-ray photoemission spectroscopy (XPS), and Hall-effect measurements to demonstrate the interplay of Zn vacancy-related (VZn-R) defects with dopants in degenerately Ga-doped ZnO grown by pulsed laser deposition. DRCLS VZn-R/conduction band emission ratios relate to acceptor/donor concentrations, increasing rapidly for growth temperatures >400 °C, evidently because Ga atoms are inhibited from incorporating efficiently on available VZn sites. Elemental XPS depth profiles reveal a temperature-dependent Ga interface segregation due to Ga bulk diffusion during growth. DRCLS Fermi level thresholds provide a useful indicator of carrier density, revealing depth variations in carrier density that anticorrelate with VZn-R densities on a nm scale, confirming the acceptor nature of VZn-R defects.

Repository Citation

Look, D. C., Leedy, K. D., & Agresta, D. L. (2013). Role of Native Point Defects and Ga Diffusion on Electrical Properties of Degenerate Ga-Doped ZnO. Physica Status Solidi (B) Basic Research, 250 (10), 2114-2117.
https://corescholar.libraries.wright.edu/physics/1523

DOI

10.1002/pssb.201200945