Mussel-inspired modification of Microporous polypropylene membranes for functional catalytic degradation

Xiu nan Yin; Jing Wang; Jian jun Zhou; Lin Li

doi:10.1007/s10118-015-1726-8

Mussel-inspired modification of Microporous polypropylene membranes for functional catalytic degradation

Xiu nan Yin, Jing Wang, Jian jun Zhou^*, Lin Li

^*Corresponding author for this work

Beijing Normal University

Research output: Contribution to journal › Article › peer-review

10 Citations (Scopus)

Abstract

In this manuscript, an easy method of anchoring Au nanoparticles onto a polypropylene (PP) membrane to prepare a composite Au-PP membrane with catalytic activity was demonstrated. The surface of the PP membrane was first modified with a primary amine by mussel-inspired dopamine polymerization. Then, the modified PP membrane was used to reduce chloroauric acid to anchor Au nanoparticles onto the surface, forming a Au-PP membrane. The surface morphology and composition of the modified PP membrane were characterized with SEM, ATR-FTIR and XPS. The catalytic activity of the Au-PP membrane was also evaluated by the degradation of a model dye solution of methylene blue. The fabricated membrane shows excellent catalytic performance, and the catalytic activity can be effectively regenerated.

Original language	English
Pages (from-to)	1721-1729
Number of pages	9
Journal	Chinese Journal of Polymer Science (English Edition)
Volume	33
Issue number	12
DOIs	https://doi.org/10.1007/s10118-015-1726-8
Publication status	Published - 1 Dec 2015
Externally published	Yes

Keywords

Au nanoparticles
Catalytic degradation
Dopamine
Microporous polypropylene membrane

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10.1007/s10118-015-1726-8

Cite this

Yin, X. N., Wang, J., Zhou, J. J., & Li, L. (2015). Mussel-inspired modification of Microporous polypropylene membranes for functional catalytic degradation. Chinese Journal of Polymer Science (English Edition), 33(12), 1721-1729. https://doi.org/10.1007/s10118-015-1726-8

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title = "Mussel-inspired modification of Microporous polypropylene membranes for functional catalytic degradation",

abstract = "In this manuscript, an easy method of anchoring Au nanoparticles onto a polypropylene (PP) membrane to prepare a composite Au-PP membrane with catalytic activity was demonstrated. The surface of the PP membrane was first modified with a primary amine by mussel-inspired dopamine polymerization. Then, the modified PP membrane was used to reduce chloroauric acid to anchor Au nanoparticles onto the surface, forming a Au-PP membrane. The surface morphology and composition of the modified PP membrane were characterized with SEM, ATR-FTIR and XPS. The catalytic activity of the Au-PP membrane was also evaluated by the degradation of a model dye solution of methylene blue. The fabricated membrane shows excellent catalytic performance, and the catalytic activity can be effectively regenerated.",

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author = "Yin, {Xiu nan} and Jing Wang and Zhou, {Jian jun} and Lin Li",

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doi = "10.1007/s10118-015-1726-8",

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AU - Yin, Xiu nan

AU - Wang, Jing

AU - Zhou, Jian jun

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N2 - In this manuscript, an easy method of anchoring Au nanoparticles onto a polypropylene (PP) membrane to prepare a composite Au-PP membrane with catalytic activity was demonstrated. The surface of the PP membrane was first modified with a primary amine by mussel-inspired dopamine polymerization. Then, the modified PP membrane was used to reduce chloroauric acid to anchor Au nanoparticles onto the surface, forming a Au-PP membrane. The surface morphology and composition of the modified PP membrane were characterized with SEM, ATR-FTIR and XPS. The catalytic activity of the Au-PP membrane was also evaluated by the degradation of a model dye solution of methylene blue. The fabricated membrane shows excellent catalytic performance, and the catalytic activity can be effectively regenerated.

AB - In this manuscript, an easy method of anchoring Au nanoparticles onto a polypropylene (PP) membrane to prepare a composite Au-PP membrane with catalytic activity was demonstrated. The surface of the PP membrane was first modified with a primary amine by mussel-inspired dopamine polymerization. Then, the modified PP membrane was used to reduce chloroauric acid to anchor Au nanoparticles onto the surface, forming a Au-PP membrane. The surface morphology and composition of the modified PP membrane were characterized with SEM, ATR-FTIR and XPS. The catalytic activity of the Au-PP membrane was also evaluated by the degradation of a model dye solution of methylene blue. The fabricated membrane shows excellent catalytic performance, and the catalytic activity can be effectively regenerated.

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KW - Catalytic degradation

KW - Dopamine

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Mussel-inspired modification of Microporous polypropylene membranes for functional catalytic degradation

Abstract

Keywords

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