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Improving color rendition in solid state white lighting through the use of quantum dots

Quantum dots have the potential to be used in solid state white lighting applications as an additional down-converting component to better represent wavelengths in the red spectral region, leading to higher quality white light with improved color rendering. In this contribution, we report on color c...

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Bibliographic Details
Published in:Journal of materials chemistry. C, Materials for optical and electronic devices Materials for optical and electronic devices, 2013-01, Vol.1 (7), p.1461-1466
Main Authors: Denault, Kristin A., Mikhailovsky, Alexander A., Brinkley, Stuart, DenBaars, Steven P., Seshadri, Ram
Format: Article
Language:English
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Summary:Quantum dots have the potential to be used in solid state white lighting applications as an additional down-converting component to better represent wavelengths in the red spectral region, leading to higher quality white light with improved color rendering. In this contribution, we report on color characteristics of phosphor-converted white light-emitting diodes that utilize inorganic garnet-based phosphors, with quantum dots incorporated appropriately. Devices were fabricated using red-emitting CdSe/ZnS core/shell quantum dots ( lambda sub(em) = 560 nm or lambda sub(em) = 590 nm) in conjunction with yellow-emitting Y sub(3)Al sub(5)O sub(12):Ce super(3+) or green-emitting Lu sub(3)Al sub(5)O sub(12):Ce super(3+) and a blue-emitting InGaN LED ( lambda sub(em) = 450 nm). Several phosphor/quantum dot geometries were examined, including encapsulating the phosphor powder and quantum dots together in silicone resin, or in two separate layers of silicone resin, with either the quantum dots closest to the LED or the phosphor particles closest to the LED. The quantum dots were most efficient when encapsulated with the phosphor particles in the resin. Devices with Y sub(3)Al sub(5)O sub(12) :Ce super(3+) and quantum dots ( lambda sub(em) = 590 nm) achieved a correlated color temperature of 4000 K, color rendering index of 81, and luminous efficacy of 57 lm W super(-1), while devices with Lu sub(3)Al sub(5)O sub(12):Ce super(3+) and quantum dots ( lambda sub(em) = 590 nm) achieved a correlated color temperature of 5700 K, a color rendering index of 90, and luminous efficacy of 22 lm W super(-1). The results obtained suggest that the use of quantum dots may allow for solid state white lighting devices with high color rendition.
ISSN:2050-7526
2050-7534
DOI:10.1039/c2tc00420h