Activation of Tomato Growth Under Photoconversion Coatings with Nanoluminophor Sr0.76Ba0.20Yb0.02Er0.02F2.04

The effect of coatings containing upconversion luminescent nanoparticles on the cultivation of Solanum lycopersicum has been studied. Sr0.76Ba0.20Yb0.02Er0.02F2.04 particles capable of converting infrared radiation into visible light (λem = 660 nm, 545 nm, and 525 nm) were used as the phosphor. It w...

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Main Authors: Paskhin Mark, Kazantseva Dina, Ermakova Julia, Grigorieva Daria, Yanykin Denis
Format: Article
Language:English
Published: EDP Sciences 2023-01-01
Series:BIO Web of Conferences
Online Access:https://www.bio-conferences.org/articles/bioconf/pdf/2023/02/bioconf_itsm2023_06004.pdf
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author Paskhin Mark
Kazantseva Dina
Ermakova Julia
Grigorieva Daria
Yanykin Denis
author_facet Paskhin Mark
Kazantseva Dina
Ermakova Julia
Grigorieva Daria
Yanykin Denis
author_sort Paskhin Mark
collection DOAJ
description The effect of coatings containing upconversion luminescent nanoparticles on the cultivation of Solanum lycopersicum has been studied. Sr0.76Ba0.20Yb0.02Er0.02F2.04 particles capable of converting infrared radiation into visible light (λem = 660 nm, 545 nm, and 525 nm) were used as the phosphor. It was shown that the cultivation of tomatoes under photoconversion coatings accelerated the adaptation of plants to ultraviolet radiation. A more efficient distribution of the energy of absorbed light between the processes of photosynthesis and thermal dissipation under upconversion coatings was revealed. As a result, plants grown under photoconversion coatings increased the number and total leaf area, stem length, and leaf chlorophyll content.
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spelling doaj.art-4ed13e1ccc074e3ab51b171fd072ef9d2023-01-17T09:11:28ZengEDP SciencesBIO Web of Conferences2117-44582023-01-01570600410.1051/bioconf/20235706004bioconf_itsm2023_06004Activation of Tomato Growth Under Photoconversion Coatings with Nanoluminophor Sr0.76Ba0.20Yb0.02Er0.02F2.04Paskhin Mark0Kazantseva Dina1Ermakova Julia2Grigorieva Daria3Yanykin Denis4Prokhorov General Physics Institute of the Russian Academy of SciencesProkhorov General Physics Institute of the Russian Academy of SciencesProkhorov General Physics Institute of the Russian Academy of SciencesBelarusian State UniversityProkhorov General Physics Institute of the Russian Academy of SciencesThe effect of coatings containing upconversion luminescent nanoparticles on the cultivation of Solanum lycopersicum has been studied. Sr0.76Ba0.20Yb0.02Er0.02F2.04 particles capable of converting infrared radiation into visible light (λem = 660 nm, 545 nm, and 525 nm) were used as the phosphor. It was shown that the cultivation of tomatoes under photoconversion coatings accelerated the adaptation of plants to ultraviolet radiation. A more efficient distribution of the energy of absorbed light between the processes of photosynthesis and thermal dissipation under upconversion coatings was revealed. As a result, plants grown under photoconversion coatings increased the number and total leaf area, stem length, and leaf chlorophyll content.https://www.bio-conferences.org/articles/bioconf/pdf/2023/02/bioconf_itsm2023_06004.pdf
spellingShingle Paskhin Mark
Kazantseva Dina
Ermakova Julia
Grigorieva Daria
Yanykin Denis
Activation of Tomato Growth Under Photoconversion Coatings with Nanoluminophor Sr0.76Ba0.20Yb0.02Er0.02F2.04
BIO Web of Conferences
title Activation of Tomato Growth Under Photoconversion Coatings with Nanoluminophor Sr0.76Ba0.20Yb0.02Er0.02F2.04
title_full Activation of Tomato Growth Under Photoconversion Coatings with Nanoluminophor Sr0.76Ba0.20Yb0.02Er0.02F2.04
title_fullStr Activation of Tomato Growth Under Photoconversion Coatings with Nanoluminophor Sr0.76Ba0.20Yb0.02Er0.02F2.04
title_full_unstemmed Activation of Tomato Growth Under Photoconversion Coatings with Nanoluminophor Sr0.76Ba0.20Yb0.02Er0.02F2.04
title_short Activation of Tomato Growth Under Photoconversion Coatings with Nanoluminophor Sr0.76Ba0.20Yb0.02Er0.02F2.04
title_sort activation of tomato growth under photoconversion coatings with nanoluminophor sr0 76ba0 20yb0 02er0 02f2 04
url https://www.bio-conferences.org/articles/bioconf/pdf/2023/02/bioconf_itsm2023_06004.pdf
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