L. Rama Moorthy scite author profile

Dysprosium-doped oxyfluoride glasses and nanocrystalline glass ceramics have been synthesized and studied by x-ray diffraction, absorption, and visible and near-infrared emission spectra. The samples emit intense white light when populating the F49/2 level with a 451 nm laser light and, from the visible emission spectra, yellow to blue intensity ratios and chromaticity color coordinates have been calculated and their relative variation have been discussed based on the concentration of Dy3+ ions and the heat treatment conditions used to prepare the glass ceramics. Infrared emission has also been observed in glasses and glass ceramics after laser excitation at 800 nm, showing bands at 1.33 and 1.67 μm, useful for optical amplification in fiber amplifiers.

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Photoluminescence properties of Sm3+ in LBTAF glasses

Jamalaiah

Kumar

Babu

et al. 2009

Journal of Luminescence

139

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Absorption and fluorescence properties of Sm3+ ions in fluoride containing phosphate glasses

et al. 2009

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Greenish‐Yellow Emission from Dy³⁺‐Doped Y₂O₃ Nanophosphors

Jayasimhadri

Ratnam

Jang

et al. 2010

Journal of the American Ceramic Society

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Trivalent dysprosium‐doped cubic yttrium oxide (Y2O3) nanophosphors were prepared by combustion synthesis using glycine as fuel. The resulting products were characterized by Raman and FT‐IR spectra to evaluate the vibrational features of the samples. X‐ray diffraction patterns confirmed the formation of a pure cubic phase of Y2O3. The morphology and selective area electron diffraction measurements were carried out using transmission electron microscopy (TEM) and field‐emission scanning electron microscopy. From TEM, it is observed that as‐prepared particles have average crystallite sizes of around 23 nm. The luminescent and dynamic properties of Y2O3:Dy3+ were examined as a function of temperature and different concentrations of Dy3+. The luminescence study reveals that these phosphors predominantly exhibit greenish‐yellow emission due to strong 4F9/2→6H13/2 transition at 575 nm and a feeble 4F9/2→6H15/2 transition at 488 nm. These results show that the relative luminescence intensity of emission bands changes with different heating temperatures, while the greenish yellow color luminescence as well as Commission International d'Eclairage chromaticity coordinates extracted from the emission spectra were not affected significantly. The strong greenish‐yellow emission of Y2O3:Dy3+ phosphor may be useful for applications in solid‐state white lamps for general illumination purposes.

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Spectroscopic characteristics of Sm3+-doped alkali fluorophosphate glasses

Jayasimhadri

Moorthy

Saleem

et al. 2006

Spectrochimica Acta Part A: Molecular and Biomolecular Spectros

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L. Rama Moorthy

Spectral investigations on Dy3+-doped transparent oxyfluoride glasses and nanocrystalline glass ceramics

Photoluminescence properties of Sm3+ in LBTAF glasses

Absorption and fluorescence properties of Sm3+ ions in fluoride containing phosphate glasses

Greenish‐Yellow Emission from Dy³⁺‐Doped Y₂O₃ Nanophosphors

Spectroscopic characteristics of Sm3+-doped alkali fluorophosphate glasses

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About

L. Rama Moorthy

Spectral investigations on Dy3+-doped transparent oxyfluoride glasses and nanocrystalline glass ceramics

Photoluminescence properties of Sm3+ in LBTAF glasses

Absorption and fluorescence properties of Sm3+ ions in fluoride containing phosphate glasses

Greenish‐Yellow Emission from Dy3+‐Doped Y2O3 Nanophosphors

Spectroscopic characteristics of Sm3+-doped alkali fluorophosphate glasses

Contact Info

Product

Resources

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Greenish‐Yellow Emission from Dy³⁺‐Doped Y₂O₃ Nanophosphors