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Efficient manganese luminescence induced by Ce3+-Mn2+ energy transfer in rare earth fluoride and phosphate nanocrystals.

Ding Y, Liang LB, Li M, He DF, Xu L, Wang P, Yu XF - Nanoscale Res Lett (2011)

Bottom Line: Manganese materials with attractive optical properties have been proposed for applications in such areas as photonics, light-emitting diodes, and bioimaging.CeF3 and CePO4 NCs doped with Mn2+ have been prepared and can be well dispersed in aqueous solutions.By optimizing Mn2+ doping concentrations, Mn2+ luminescence quantum efficiency and Ce3+-Mn2+ energy transfer efficiency can respectively reach 14% and 60% in the CeF3:Mn NCs.

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Affiliation: Department of Physics, Key Laboratory of Artificial Micro- and Nano-structures of Ministry of Education and School of Physics and Technology, Wuhan University, Luoshi Road, Wuhan 430072, China. yxf@whu.edu.cn.

ABSTRACT
Manganese materials with attractive optical properties have been proposed for applications in such areas as photonics, light-emitting diodes, and bioimaging. In this paper, we have demonstrated multicolor Mn2+ luminescence in the visible region by controlling Ce3+-Mn2+ energy transfer in rare earth nanocrystals [NCs]. CeF3 and CePO4 NCs doped with Mn2+ have been prepared and can be well dispersed in aqueous solutions. Under ultraviolet light excitation, both the CeF3:Mn and CePO4:Mn NCs exhibit Mn2+ luminescence, yet their output colors are green and orange, respectively. By optimizing Mn2+ doping concentrations, Mn2+ luminescence quantum efficiency and Ce3+-Mn2+ energy transfer efficiency can respectively reach 14% and 60% in the CeF3:Mn NCs.

No MeSH data available.


XRD spectra. XRD spectra of CeF3:Mn and CePO4:Mn NCs.
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Figure 2: XRD spectra. XRD spectra of CeF3:Mn and CePO4:Mn NCs.

Mentions: Figure 2 shows XRD spectra of CeF3:Mn and CePO4:Mn NCs. The XRD pattern of the CeF3:Mn NCs shows that all the peak positions are in good agreement with the literature data of the hexagonal CeF3 crystal, and the peak positions exhibited by the CePO4:Mn NCs are well indexed in accord with the hexagonal CePO4 crystal, revealing high crystallinity of these two kinds of products.


Efficient manganese luminescence induced by Ce3+-Mn2+ energy transfer in rare earth fluoride and phosphate nanocrystals.

Ding Y, Liang LB, Li M, He DF, Xu L, Wang P, Yu XF - Nanoscale Res Lett (2011)

XRD spectra. XRD spectra of CeF3:Mn and CePO4:Mn NCs.
© Copyright Policy - open-access
Related In: Results  -  Collection

License
Show All Figures
getmorefigures.php?uid=PMC3211164&req=5

Figure 2: XRD spectra. XRD spectra of CeF3:Mn and CePO4:Mn NCs.
Mentions: Figure 2 shows XRD spectra of CeF3:Mn and CePO4:Mn NCs. The XRD pattern of the CeF3:Mn NCs shows that all the peak positions are in good agreement with the literature data of the hexagonal CeF3 crystal, and the peak positions exhibited by the CePO4:Mn NCs are well indexed in accord with the hexagonal CePO4 crystal, revealing high crystallinity of these two kinds of products.

Bottom Line: Manganese materials with attractive optical properties have been proposed for applications in such areas as photonics, light-emitting diodes, and bioimaging.CeF3 and CePO4 NCs doped with Mn2+ have been prepared and can be well dispersed in aqueous solutions.By optimizing Mn2+ doping concentrations, Mn2+ luminescence quantum efficiency and Ce3+-Mn2+ energy transfer efficiency can respectively reach 14% and 60% in the CeF3:Mn NCs.

View Article: PubMed Central - HTML - PubMed

Affiliation: Department of Physics, Key Laboratory of Artificial Micro- and Nano-structures of Ministry of Education and School of Physics and Technology, Wuhan University, Luoshi Road, Wuhan 430072, China. yxf@whu.edu.cn.

ABSTRACT
Manganese materials with attractive optical properties have been proposed for applications in such areas as photonics, light-emitting diodes, and bioimaging. In this paper, we have demonstrated multicolor Mn2+ luminescence in the visible region by controlling Ce3+-Mn2+ energy transfer in rare earth nanocrystals [NCs]. CeF3 and CePO4 NCs doped with Mn2+ have been prepared and can be well dispersed in aqueous solutions. Under ultraviolet light excitation, both the CeF3:Mn and CePO4:Mn NCs exhibit Mn2+ luminescence, yet their output colors are green and orange, respectively. By optimizing Mn2+ doping concentrations, Mn2+ luminescence quantum efficiency and Ce3+-Mn2+ energy transfer efficiency can respectively reach 14% and 60% in the CeF3:Mn NCs.

No MeSH data available.