The structural and optical properties of ZnO bulk and nanocrystals under high pressure

The elastic properties of high-quality ZnO crystals and nanopowder of grain size of about 65 nm are studied for both wurtzite (low pressure) and rock-salt high pressure phases. The measured values of bulk moduli for wurtzite and rock-salt phases of bulk ZnO crystals are equal to 156±13 and 187±20 GP...

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Bibliographic Details
Published in:High pressure research 2012-09, Vol.32 (3), p.354-363
Main Authors: Duzynska, A., Hrubiak, R., Drozd, V., Teisseyre, H., Paszkowicz, W., Reszka, A., Kaminska, A., Saxena, S., Fidelus, J. D., Grabis, J., Monty, C. J., Suchocki, A.
Format: Article
Language:English
Subjects:
Crystals
diamond anvil cell
Luminescence
Nanocrystals
Nanomaterials
Nanostructure
Optical properties
Phase transformations
phase transition
Phase transitions
Phases
Pressure
Wurtzite
X-ray diffraction
Zinc oxide
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Summary:The elastic properties of high-quality ZnO crystals and nanopowder of grain size of about 65 nm are studied for both wurtzite (low pressure) and rock-salt high pressure phases. The measured values of bulk moduli for wurtzite and rock-salt phases of bulk ZnO crystals are equal to 156±13 and 187±20 GPa, respectively, and considerably larger for ZnO nanocrystals. The phase transition begins at a pressure of about 9 GPa and it is completed at a pressure of about 13.8 GPa for bulk crystals, whereas the values of pressure at which the phase transition occurs are lower for nanocrystals. A carefull Rietveld analysis of the obtained data does not exhibit the presence of any intermediate phases between low pressure wurtzite and high pressure rock-salt phases of ZnO. The phase transition is accompanied by a strong decrease in the near-band-gap photoluminescence intensity. In addition, the pressure coefficient of the near-band-gap luminescence in ZnO nanocrystals exhibits strong deviation from the linearity observed in bulk crystals. An analysis of the results shows that defects present in the nanopowdered sample are responsible for the observed effects.
ISSN:0895-7959
1477-2299
DOI:10.1080/08957959.2012.700308