Hydrogen incorporation and diffusivity in plasma-exposed bulk ZnO

Look, D. C.; Ren, F; Ip, K.; Stutz, C. E.; Zavada, J. M.; Heo, Y. W.; Overberg, M. E.; Pearton, S J; Luo, B.; Norton, D. P.

doi:10.1063/1.1539927

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Hydrogen incorporation and diffusivity in plasma-exposed bulk ZnO

Author(s): K. Ip , M. E. Overberg , Y. W. Heo , D. P. Norton , S. J. Pearton , C. E. Stutz , B. Luo , F. Ren , D. C. Look , J. M. Zavada

Publication date Created: January 20 2003

Publication date (Print): January 20 2003

Journal: Applied Physics Letters

Publisher: AIP Publishing

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Hydrogen as a cause of doping in zinc oxide

Chris Van de Walle (2000)

Zinc oxide, a wide-band-gap semiconductor with many technological applications, typically exhibits n-type conductivity. The cause of this conductivity has been widely debated. A first-principles investigation, based on density functional theory, produces strong evidence that hydrogen acts as a source of conductivity: it can incorporate in high concentrations and behaves as a shallow donor. This behavior is unexpected and very different from hydrogen's role in other semiconductors, in which it acts only as a compensating center and always counteracts the prevailing conductivity. These insights have important consequences for control and utilization of hydrogen in oxides in general.