Hairy silica nanosphere supported metal nanoparticles for reductive degradation of dye pollutants

Xin Chen; Li Zhang; Bin Xu; Tingting Chen; Lianhong Hu; Wei Yao; Mengxiang Zhou; Hui Xu

doi:10.1039/d1na00020a

Hairy silica nanosphere supported metal nanoparticles for reductive degradation of dye pollutants

Xin Chen, Li Zhang, Bin Xu, Tingting Chen, Lianhong Hu, Wei Yao, Mengxiang Zhou, Hui Xu

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12 Scopus citations

Abstract

Hairy materials can act as a sort of scaffold for the fabrication of functional hybrid composites. In this work, silica nanospheres modified with covalently grafted poly(4-vinylpyridine) (P4VP) brushes, namely, "hairy"silica spheres, were utilized as a support for the anchorage of metal nanoparticles (MNPs), thus resulting in the hierarchical SiO2@P4VP/MNP structure. In this triple-phase boundary heteronanostructure, the SiO2-supported MNPs are well stabilized by the P4VP matrix to avoid aggregation and leaching. These SiO2@P4VP/MNP nanocomposites exhibit good catalytic activity in the reductive degradation of organic dyes, i.e., 4-nitrophenol and rhodamine B and possess excellent stability and recyclability for five successive cycles.

Original language	English
Pages (from-to)	2879-2886
Number of pages	8
Journal	Nanoscale Advances
Volume	3
Issue number	10
DOIs	https://doi.org/10.1039/d1na00020a
State	Published - 21 May 2021

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abstract = "Hairy materials can act as a sort of scaffold for the fabrication of functional hybrid composites. In this work, silica nanospheres modified with covalently grafted poly(4-vinylpyridine) (P4VP) brushes, namely, {"}hairy{"}silica spheres, were utilized as a support for the anchorage of metal nanoparticles (MNPs), thus resulting in the hierarchical SiO2@P4VP/MNP structure. In this triple-phase boundary heteronanostructure, the SiO2-supported MNPs are well stabilized by the P4VP matrix to avoid aggregation and leaching. These SiO2@P4VP/MNP nanocomposites exhibit good catalytic activity in the reductive degradation of organic dyes, i.e., 4-nitrophenol and rhodamine B and possess excellent stability and recyclability for five successive cycles.",

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T1 - Hairy silica nanosphere supported metal nanoparticles for reductive degradation of dye pollutants

AU - Chen, Xin

AU - Zhang, Li

AU - Xu, Bin

AU - Chen, Tingting

AU - Hu, Lianhong

AU - Yao, Wei

AU - Zhou, Mengxiang

AU - Xu, Hui

PY - 2021/5/21

Y1 - 2021/5/21

N2 - Hairy materials can act as a sort of scaffold for the fabrication of functional hybrid composites. In this work, silica nanospheres modified with covalently grafted poly(4-vinylpyridine) (P4VP) brushes, namely, "hairy"silica spheres, were utilized as a support for the anchorage of metal nanoparticles (MNPs), thus resulting in the hierarchical SiO2@P4VP/MNP structure. In this triple-phase boundary heteronanostructure, the SiO2-supported MNPs are well stabilized by the P4VP matrix to avoid aggregation and leaching. These SiO2@P4VP/MNP nanocomposites exhibit good catalytic activity in the reductive degradation of organic dyes, i.e., 4-nitrophenol and rhodamine B and possess excellent stability and recyclability for five successive cycles.

AB - Hairy materials can act as a sort of scaffold for the fabrication of functional hybrid composites. In this work, silica nanospheres modified with covalently grafted poly(4-vinylpyridine) (P4VP) brushes, namely, "hairy"silica spheres, were utilized as a support for the anchorage of metal nanoparticles (MNPs), thus resulting in the hierarchical SiO2@P4VP/MNP structure. In this triple-phase boundary heteronanostructure, the SiO2-supported MNPs are well stabilized by the P4VP matrix to avoid aggregation and leaching. These SiO2@P4VP/MNP nanocomposites exhibit good catalytic activity in the reductive degradation of organic dyes, i.e., 4-nitrophenol and rhodamine B and possess excellent stability and recyclability for five successive cycles.

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U2 - 10.1039/d1na00020a

DO - 10.1039/d1na00020a

M3 - 文章

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SP - 2879

EP - 2886

JO - Nanoscale Advances

JF - Nanoscale Advances

IS - 10

ER -

Hairy silica nanosphere supported metal nanoparticles for reductive degradation of dye pollutants

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