Abstract
Single-crystalline Y(OH) 3:Eu nanowires have been prepared by polymer-assisted hydrothermal method. The yields of the nanowires were higher than 95%. XRD patterns showed that the products were the hexagonal Y(OH) 3 structure. SEM images displayed that the nanowires consisted of nanobelts and nanorods. The nanorods have the diameter of about 85 nm and length up to several tens of microns, and the nanobelts have the width of ∼95 nm, and the thickness of ∼20 nm, and the length of several tens of microns. Y(OH) 3:Eu nanowires were converted to Y 2O 3:Eu nanowires by thermal decomposition at 500 °C for 3 h. The morphologies still remained. The photoluminescence (PL) properties of Y(OH) 3:Eu and Y 2O 3:Eu nanowires were studied. There are four strong peaks at 592, 616, 651 and 696 nm for the Y(OH) 3:Eu nanowires under the excitation of 396 nm. There is only strong peak at 611 nm for the Y 2O 3:Eu nanowires under the excitation of 465 nm.
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