Cathodoluminescence Properties of Commercial Phosphors for White LED

Elena F. Polisadova; Vitaly A. Vaganov; Damir T. Valiev; Habibula A. Abdullin; A.A. Marhabaeva; D.D. Kerimbaev

doi:10.4028/www.scientific.net/KEM.712.367

Paper Titles

Effects of Doped Oxygen on ZnWO₄ Crystal Luminescence
p.345

Temperature Distribution on the Surface of LED Lamps
p.351

Parameters Investigation of Phosphors for Solid State Lighting
p.357

Luminescence Spectrum of Yttrium Aluminum Garnet Based Phosphors with Initiating by Different Sources of Optical Excitation
p.362

Cathodoluminescence Properties of Commercial Phosphors for White LED
p.367

Pulsed Cathodoluminescence of LiF Crystals Doped with W and Ti
p.372

Estimation of Thermodiffusion Influence on Formation of Transition Zones during Brazing
p.379

Acoustic Properties of Isotropic Hypoelastic Materials with Residual Technological Stresses
p.384

The Impact of the Dislocation Density, Lattice and Impurity Friction on the Dynamics of Expansion of a Dislocation Loop in FCC Metals
p.390

HomeKey Engineering MaterialsKey Engineering Materials Vol. 712Cathodoluminescence Properties of Commercial...

Cathodoluminescence Properties of Commercial Phosphors for White LED

Abstract:

The results of the study of spectral and decay kinetic characteristics of the pulse cathodoluminescence (PCL) for the group of industrial “white” LEDs phosphors with different composition of the host and dopants are presented. The quantitative characteristics of the PCL: position and half-width of the luminescence spectra, the luminescence decay times were determined.

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Periodical:

Key Engineering Materials (Volume 712)

Pages:

367-371

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.712.367

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Online since:

September 2016

Authors:

Elena F. Polisadova*, Vitaly A. Vaganov, Damir T. Valiev, Habibula A. Abdullin, A.A. Marhabaeva, D.D. Kerimbaev

Keywords:

Cathodoluminescence, Energy Transfer, Light Emitting Diodes (LED), Luminescence Decay Kinetics, Phosphor

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References

[1] V. M. Lisitsyn, D. T. Valiev, I. A. Tupitsyna et al., Effect of particle size and morphology on the properties of luminescence in ZnWO4, Journal of Luminescence. 153 (2014) 130-135.

DOI: 10.1016/j.jlumin.2014.03.024

Google Scholar

[2] V. M. Lisitsyn, E. V. Bikhert, L. A. Lisitsyn et al., Cathodoluminescence And Radiation-induced Absorption In YLiF4 Crystals In Excitation By Electron Pulse, Advanced Materials Research. 880 (2014) 13-18.

DOI: 10.4028/www.scientific.net/amr.880.13

Google Scholar

[3] L. A. Lisitsyna, V. I. Korepanov, V. M. Lisitsyn et al., Impurity cathodoluminescence of oxygen-containing LiF crystals, Optics and Spectroscopy 110 (2011) 529-533.

DOI: 10.1134/s0030400x11040151

Google Scholar

[4] Chun Che Lin and Ru-Shi Liu, Advances in Phosphors for Light-emitting Diodes, J. Phys. Chem. Lett. 2 (2011) 1268.

Google Scholar

[5] V. M. Lisitsyn, S. A. Stepanov, D. T. Valiev et al., Kinetic characteristics of the luminescence decay for industrial yttrium-gadolinium-aluminium garnet based phosphors, IOP Conf. Series: Materials Science and Engineering 110 (2016) 012051.

DOI: 10.1088/1757-899x/110/1/012051

Google Scholar

[6] Y. Pan, M. Wu and Q. Su, Tailored photoluminescence of YAG: Ce phosphor through various methods, J. Phys. Chem. Solids 65 (2004) 845–850.

DOI: 10.1016/j.jpcs.2003.08.018

Google Scholar

[7] M.V. Fok, Introduction to the luminescence kinetics of crystal, Moscow, (1964).

Google Scholar