In:
Journal of Materials Chemistry C, Royal Society of Chemistry (RSC), Vol. 10, No. 44 ( 2022), p. 16857-16864
Abstract:
For inorganic luminescent materials, it is a challenge that the emission intensity decreases gradually with increasing temperature due to the temperature quenching effect. To reduce this effect, an effective way is to improve structural stiffness. Herein, a new series of Cr 3+ activated LiABO 4 (A = Al, Ga; B = Ge, Si) with high thermal stability has been synthesized, which has a structure similar to the benzene ring. Such a rigid net structure endows this phosphor with outstanding thermal stability. The crystal structure, luminescence lifetime, photoluminescence (PL) properties, and temperature-dependent luminescence of LiGaGeO 4 , Li(Al,Ga)GeO 4 and LiAlSiO 4 were investigated in detail. When replacing part of Ga with Al in the LiGaGeO 4 , it can be observed that the intensity of photoluminescence and thermostability improved a lot. Since LiGaGeO 4 has two different environments for the Cr 3+ ions, the PL shows a combination of the broadband and the narrow band which correspond to the 4 T 2 → 4 A 2 and 2 E 2 → 4 A 2 transitions, respectively. The PL intensities of LiAl 0.1 Ga 0.9 GeO 4 :0.002Cr 3+ and LiAlSiO 4 :0.02Cr 3+ at 150 °C still keep 82% and 94% of their PL intensities at room temperature, indicating outstanding thermostability. Owing to its rigid tetrahedral network of LiAlSiO 4 , a small Stokes shift and ultra-narrow band with fwhm ≈3 nm center at 719 nm were observed. The emission bands of mentioned phosphors matched well with the absorption band of phytochromes. Moreover, the packaged white LED device that was made up of a 395 nm LED chip, commercial phosphors, and samples of LiAlSiO 4 :0.02Cr 3+ shows a high color rendering index ( R a = 94.5) and low color temperature (CCT = 3926 K), indicating that the phosphors mentioned above have a promising application in pc-LED for plant growth.
Type of Medium:
Online Resource
ISSN:
2050-7526
,
2050-7534
Language:
English
Publisher:
Royal Society of Chemistry (RSC)
Publication Date:
2022
detail.hit.zdb_id:
2702245-6
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