Synthesis and study of luminescence properties of a deep red–emitting phosphor K2LiAlF6:Mn4+ for plant cultivation

Synthesis and study of luminescence properties of a deep red–emitting phosphor K2LiAlF6:Mn4+ for plant cultivation

Light is the most important component in plant growth and development. This study synthesised a novel Mn4+‐doped K2LiAlF6 red‐emitting phosphor using the coprecipitation method. We observed that on addition of dopant Mn4+ ions to the host K2LiAlF6, its phase changed from rhombohedral to cubic due to...

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Veröffentlicht in:Luminescence (Chichester, England) England), 2024-02, Vol.39 (2), p.n/a
Hauptverfasser: Bawanthade, Bharti P., Mistry, Ashok A., Ugemuge, Nilesh S., Dhoble, Sanjay J.
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Sprache:eng
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Absorption spectra
Chromaticity
Coprecipitation
Cubic lattice
Cultivation
Energy transfer
Ions
K2LiAlF6
Light emitting diodes
Luminescence
Manganese ions
Mn4
Optical properties
Phosphors
plant cultivation
Plant growth
Quenching
red emitting
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Mistry, Ashok A.
Ugemuge, Nilesh S.
Dhoble, Sanjay J.
description Light is the most important component in plant growth and development. This study synthesised a novel Mn4+‐doped K2LiAlF6 red‐emitting phosphor using the coprecipitation method. We observed that on addition of dopant Mn4+ ions to the host K2LiAlF6, its phase changed from rhombohedral to cubic due to the change in the lattice position of the atoms. When the atoms are excited at 468 nm, the K2LiAlF6:Mn4+ phosphor exhibited a red emission band ranging from 630 to 700 nm, centred at 638 nm, which matched well with the absorption spectra of phytochrome PR. The critical quenching content of Mn4+ ions was ~3 mol%. The critical distance between Mn4+ ions was determined to be 19.724 Å, and non‐radiative energy transfer among the nearest‐neighbour Mn4+ ions was the mechanism used for the concentration quenching effect. The Commission International de l'Eclairage (CIE) chromaticity coordinates of the K2LiAlF6:0.03 Mn4+ sample were (x = 0.7162, y = 0.2837). The luminescence mean decay time was calculated to be 8.29 ms. These results demonstrated the promising prospect of K2LiAlF6:Mn4+ as a red‐emitting phosphor for application in red light‐emitting diodes for plant cultivation. Mn4+‐doped K2LiAlF6 red‐emitting phosphor was synthesised using the coprecipitation method. When excited at 468 nm, the K2LiAlF6:Mn4+ phosphors exhibited a red emission band centred at 638 nm, which is used for application in red light‐emitting diodes for plant cultivation.
doi_str_mv 10.1002/bio.4629
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This study synthesised a novel Mn4+‐doped K2LiAlF6 red‐emitting phosphor using the coprecipitation method. We observed that on addition of dopant Mn4+ ions to the host K2LiAlF6, its phase changed from rhombohedral to cubic due to the change in the lattice position of the atoms. When the atoms are excited at 468 nm, the K2LiAlF6:Mn4+ phosphor exhibited a red emission band ranging from 630 to 700 nm, centred at 638 nm, which matched well with the absorption spectra of phytochrome PR. The critical quenching content of Mn4+ ions was ~3 mol%. The critical distance between Mn4+ ions was determined to be 19.724 Å, and non‐radiative energy transfer among the nearest‐neighbour Mn4+ ions was the mechanism used for the concentration quenching effect. The Commission International de l'Eclairage (CIE) chromaticity coordinates of the K2LiAlF6:0.03 Mn4+ sample were (x = 0.7162, y = 0.2837). The luminescence mean decay time was calculated to be 8.29 ms. These results demonstrated the promising prospect of K2LiAlF6:Mn4+ as a red‐emitting phosphor for application in red light‐emitting diodes for plant cultivation. Mn4+‐doped K2LiAlF6 red‐emitting phosphor was synthesised using the coprecipitation method. 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This study synthesised a novel Mn4+‐doped K2LiAlF6 red‐emitting phosphor using the coprecipitation method. We observed that on addition of dopant Mn4+ ions to the host K2LiAlF6, its phase changed from rhombohedral to cubic due to the change in the lattice position of the atoms. When the atoms are excited at 468 nm, the K2LiAlF6:Mn4+ phosphor exhibited a red emission band ranging from 630 to 700 nm, centred at 638 nm, which matched well with the absorption spectra of phytochrome PR. The critical quenching content of Mn4+ ions was ~3 mol%. The critical distance between Mn4+ ions was determined to be 19.724 Å, and non‐radiative energy transfer among the nearest‐neighbour Mn4+ ions was the mechanism used for the concentration quenching effect. The Commission International de l'Eclairage (CIE) chromaticity coordinates of the K2LiAlF6:0.03 Mn4+ sample were (x = 0.7162, y = 0.2837). The luminescence mean decay time was calculated to be 8.29 ms. 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subjects Absorption spectra
Chromaticity
Coprecipitation
Cubic lattice
Cultivation
Energy transfer
Ions
K2LiAlF6
Light emitting diodes
Luminescence
Manganese ions
Mn4
Optical properties
Phosphors
plant cultivation
Plant growth
Quenching
red emitting
title Synthesis and study of luminescence properties of a deep red–emitting phosphor K2LiAlF6:Mn4+ for plant cultivation
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