Morphology controllable and highly luminescent monoclinic LaPO sub(4):Eu super(3+) microspheres

A facile, but effective, two-step method was developed to prepare monoclinic LaPO sub(4):Eu super(3+) microspheres composed of microprisms with a controllable morphology. XRD and SEM studies revealed a spherical morphology and crystalline structure for the resulting material. It was also found that...

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Veröffentlicht in:	Journal of alloys and compounds 2014-01, Vol.582, p.603-608
Hauptverfasser:	Yang, Mei, You, Hongpeng, Liang, Youlong, Xu, Jingzhou, Lu, Fan, Dai, Liming, Liu, Yong
Format:	Artikel
Sprache:	eng
Schlagworte:	Alloys Crystal structure Microspheres Morphology Optoelectronic devices Scanning electron microscopy Stability
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container_title	Journal of alloys and compounds
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creator	Yang, Mei You, Hongpeng Liang, Youlong Xu, Jingzhou Lu, Fan Dai, Liming Liu, Yong
description	A facile, but effective, two-step method was developed to prepare monoclinic LaPO sub(4):Eu super(3+) microspheres composed of microprisms with a controllable morphology. XRD and SEM studies revealed a spherical morphology and crystalline structure for the resulting material. It was also found that LaPO sub(4):Eu super(3+) microspheres prepared at 800 [degrees]C showed a higher luminescent intensity than primary hexagonal LaPO sub(4):Eu super(3+) microprisms. Furthermore, the luminescent performance of LaPO sub(4):Eu super(3+) microspheres was demonstrated to reach the standards of the LaPO sub(4):Eu super(3+) bulk material under the same conditions. These results suggest possibilities for the use of as-synthesized monoclinic LaPO sub(4):Eu super(3+) microspheres as alternatives to replace intrinsically uneven bulk materials for many application areas, including light display systems and optoelectronic devices.
doi_str_mv	10.1016/j.jallcom.2013.08.091
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XRD and SEM studies revealed a spherical morphology and crystalline structure for the resulting material. It was also found that LaPO sub(4):Eu super(3+) microspheres prepared at 800 [degrees]C showed a higher luminescent intensity than primary hexagonal LaPO sub(4):Eu super(3+) microprisms. Furthermore, the luminescent performance of LaPO sub(4):Eu super(3+) microspheres was demonstrated to reach the standards of the LaPO sub(4):Eu super(3+) bulk material under the same conditions. 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source	ScienceDirect Journals (5 years ago - present)
subjects	Alloys Crystal structure Microspheres Morphology Optoelectronic devices Scanning electron microscopy Stability
title	Morphology controllable and highly luminescent monoclinic LaPO sub(4):Eu super(3+) microspheres
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