Role of Dy3+ → Sm3+ energy transfer in the tuning of warm to cold white light emission in Dy3+/Sm3+ co-doped Lu3Ga5O12 nano-garnets

Nano-crystalline lutetium gallium garnets co-doped with Dy3+ and Sm3+ ions have been synthesized via a sol–gel method and their structural, morphological and luminescence properties have been characterized. All the garnets have been crystallized in a single phase of cubic structure, with an average...

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Bibliographic Details
Published in:New journal of chemistry 2018-01, Vol.42 (2), p.1260-1270
Main Authors: Pamuluri, Haritha, Rathaiah, Mamilla, Linganna, Kadathala, Chalicheemalapalli Kulala Jayasankar, Lavín, Victor, Vemula Venkatramu
Format: Article
Language:eng ; jpn
Subjects:
Chemical synthesis
Color temperature
Crystallization
Diodes
Dysprosium
Energy transfer
Excitation
Gallium
Garnets
Light emission
Luminescence
Lutetium
Optical properties
Sol-gel processes
White light
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Summary:Nano-crystalline lutetium gallium garnets co-doped with Dy3+ and Sm3+ ions have been synthesized via a sol–gel method and their structural, morphological and luminescence properties have been characterized. All the garnets have been crystallized in a single phase of cubic structure, with an average size of 40 nm, with coral shape morphology. Under different excitation wavelengths, the nano-garnets exhibit the strong yellow and blue emissions of Dy3+ ions, as well as the orange and red emissions of Sm3+ ions. In Dy3+/Sm3+ co-doped Lu3Ga5O12 nano-garnets, white light emission has been tuned from warm to cool by varying the concentration of Sm3+ ions, as well as the excitation wavelength. The color coordinates for 2 mol% Dy3+/10 mol% Sm3+ co-doped nano-garnets have been found to be (0.317, 0.321), quite close to ideal white light, with a correlated color temperature of 6322 K under 351 nm excitation. Moreover, decay times, multipolar interactions, and energy transfer parameters for excited states of Dy3+ and Sm3+ ions in co-doped nano-garnets have been evaluated to derive the relationship between the doping concentration and luminescence properties. These results reveal that the studied nano-garnets could be a potential candidate for white light emitting device applications.
ISSN:1144-0546
1369-9261
DOI:10.1039/c7nj04034b