Effect of micro-/mesoporous structures on H2O2 sensing ability of YVO4:Eu3+ phosphor particles

Kasumi Motomiya; Manabu Hagiwara; Shinobu Fujihara

doi:10.2109/jcersj2.19232

Effect of micro-/mesoporous structures on H2O2 sensing ability of YVO4:Eu3+ phosphor particles

Kasumi Motomiya, Manabu Hagiwara, Shinobu Fujihara

応用化学科

研究成果: Article › 査読

抄録

YVO4:Eu3+ phosphor particles are proposed as an H2O2 sensing material based on their turn-off luminescence. The YVO4:Eu3+ particles having various surface microstructures were synthesized through liquid processes and their H2O2 sensing ability was evaluated by immersing them in an aqueous H2O2 solution with a constant volume at a fixed concentration. The microstructures were characterized in detail not only by electron microscopy but also by nitrogen adsorption to elucidate factors governing the H2O2 sensing ability. It was then indicated that micro-/mesoporous structures, which were introduced in the micrometer-scaled spherical particles during their synthesis by a biphasic solgel method, were a decisive factor for achieving the effective H2O2 sensing. The YVO4:Eu3+ particles synthesized under the improved condition could show a 37% decrease of luminescence intensity after the H2O2 treatment.

本文言語	English
ページ（範囲）	532-538
ページ数	7
ジャーナル	Journal of the Ceramic Society of Japan
巻	128
号	8
DOI	https://doi.org/10.2109/jcersj2.19232
出版ステータス	Published - 2020 8 1

ASJC Scopus subject areas

Ceramics and Composites
Chemistry(all)
Condensed Matter Physics
Materials Chemistry

文献へのアクセス

10.2109/jcersj2.19232

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引用スタイル

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title = "Effect of micro-/mesoporous structures on H2O2 sensing ability of YVO4:Eu3+ phosphor particles",

abstract = "YVO4:Eu3+ phosphor particles are proposed as an H2O2 sensing material based on their turn-off luminescence. The YVO4:Eu3+ particles having various surface microstructures were synthesized through liquid processes and their H2O2 sensing ability was evaluated by immersing them in an aqueous H2O2 solution with a constant volume at a fixed concentration. The microstructures were characterized in detail not only by electron microscopy but also by nitrogen adsorption to elucidate factors governing the H2O2 sensing ability. It was then indicated that micro-/mesoporous structures, which were introduced in the micrometer-scaled spherical particles during their synthesis by a biphasic solgel method, were a decisive factor for achieving the effective H2O2 sensing. The YVO4:Eu3+ particles synthesized under the improved condition could show a 37% decrease of luminescence intensity after the H2O2 treatment.",

keywords = "Adsorption, Hydrogen peroxide, Luminescence sensing, Mesopores, Micropores, Microspheres, Phosphor",

author = "Kasumi Motomiya and Manabu Hagiwara and Shinobu Fujihara",

year = "2020",

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doi = "10.2109/jcersj2.19232",

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AU - Motomiya, Kasumi

AU - Hagiwara, Manabu

AU - Fujihara, Shinobu

PY - 2020/8/1

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N2 - YVO4:Eu3+ phosphor particles are proposed as an H2O2 sensing material based on their turn-off luminescence. The YVO4:Eu3+ particles having various surface microstructures were synthesized through liquid processes and their H2O2 sensing ability was evaluated by immersing them in an aqueous H2O2 solution with a constant volume at a fixed concentration. The microstructures were characterized in detail not only by electron microscopy but also by nitrogen adsorption to elucidate factors governing the H2O2 sensing ability. It was then indicated that micro-/mesoporous structures, which were introduced in the micrometer-scaled spherical particles during their synthesis by a biphasic solgel method, were a decisive factor for achieving the effective H2O2 sensing. The YVO4:Eu3+ particles synthesized under the improved condition could show a 37% decrease of luminescence intensity after the H2O2 treatment.

AB - YVO4:Eu3+ phosphor particles are proposed as an H2O2 sensing material based on their turn-off luminescence. The YVO4:Eu3+ particles having various surface microstructures were synthesized through liquid processes and their H2O2 sensing ability was evaluated by immersing them in an aqueous H2O2 solution with a constant volume at a fixed concentration. The microstructures were characterized in detail not only by electron microscopy but also by nitrogen adsorption to elucidate factors governing the H2O2 sensing ability. It was then indicated that micro-/mesoporous structures, which were introduced in the micrometer-scaled spherical particles during their synthesis by a biphasic solgel method, were a decisive factor for achieving the effective H2O2 sensing. The YVO4:Eu3+ particles synthesized under the improved condition could show a 37% decrease of luminescence intensity after the H2O2 treatment.

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KW - Hydrogen peroxide

KW - Luminescence sensing

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