Electrospun magnetic fibrillar polystyrene nanocomposites reinforced with nickel nanoparticles

Xuelong Chen; Suying Wei; Cem Gunesoglu; Jiahua Zhu; Cara S. Southworth; Luyi Sun; Amar B. Karki; David P. Young; Zhanhu Guo

doi:10.1002/macp.201000153

Electrospun magnetic fibrillar polystyrene nanocomposites reinforced with nickel nanoparticles

Xuelong Chen, Suying Wei, Cem Gunesoglu, Jiahua Zhu, Cara S. Southworth, Luyi Sun, Amar B. Karki, David P. Young, Zhanhu Guo

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

72 Scopus citations

Abstract

The morphology and thermal stability of bead-free and uniform electrospun pure polystyrene (PS) and PS/Ni nanocomposite fibers are investigated by SEM and TGA/DSC. A higher thermal stability is observed after introducing the nanoparticles in the polymer fibers. FT-IR analysis indicates a physical entanglement rather than chemical bonding between the nanoparticles and the polystyrene matrix. The nanoparticles still exhibit superparamagnetic properties even after dispersing in the polymer matrix, different from the reported enhanced coercivity as a result of the enlarged particle distance. However, the magnetic field required to saturate the magnetization is significantly reduced. A further oxidation is deduced after the high voltage electrospinning process.

Original language	English
Pages (from-to)	1775-1783
Number of pages	9
Journal	Macromolecular Chemistry and Physics
Volume	211
Issue number	16
DOIs	https://doi.org/10.1002/macp.201000153
State	Published - 16 Aug 2010
Externally published	Yes

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title = "Electrospun magnetic fibrillar polystyrene nanocomposites reinforced with nickel nanoparticles",

abstract = "The morphology and thermal stability of bead-free and uniform electrospun pure polystyrene (PS) and PS/Ni nanocomposite fibers are investigated by SEM and TGA/DSC. A higher thermal stability is observed after introducing the nanoparticles in the polymer fibers. FT-IR analysis indicates a physical entanglement rather than chemical bonding between the nanoparticles and the polystyrene matrix. The nanoparticles still exhibit superparamagnetic properties even after dispersing in the polymer matrix, different from the reported enhanced coercivity as a result of the enlarged particle distance. However, the magnetic field required to saturate the magnetization is significantly reduced. A further oxidation is deduced after the high voltage electrospinning process.",

author = "Xuelong Chen and Suying Wei and Cem Gunesoglu and Jiahua Zhu and Southworth, {Cara S.} and Luyi Sun and Karki, {Amar B.} and Young, {David P.} and Zhanhu Guo",

year = "2010",

month = aug,

day = "16",

doi = "10.1002/macp.201000153",

language = "英语",

volume = "211",

pages = "1775--1783",

journal = "Macromolecular Chemistry and Physics",

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T1 - Electrospun magnetic fibrillar polystyrene nanocomposites reinforced with nickel nanoparticles

AU - Chen, Xuelong

AU - Wei, Suying

AU - Gunesoglu, Cem

AU - Zhu, Jiahua

AU - Southworth, Cara S.

AU - Sun, Luyi

AU - Karki, Amar B.

AU - Young, David P.

AU - Guo, Zhanhu

PY - 2010/8/16

Y1 - 2010/8/16

N2 - The morphology and thermal stability of bead-free and uniform electrospun pure polystyrene (PS) and PS/Ni nanocomposite fibers are investigated by SEM and TGA/DSC. A higher thermal stability is observed after introducing the nanoparticles in the polymer fibers. FT-IR analysis indicates a physical entanglement rather than chemical bonding between the nanoparticles and the polystyrene matrix. The nanoparticles still exhibit superparamagnetic properties even after dispersing in the polymer matrix, different from the reported enhanced coercivity as a result of the enlarged particle distance. However, the magnetic field required to saturate the magnetization is significantly reduced. A further oxidation is deduced after the high voltage electrospinning process.

AB - The morphology and thermal stability of bead-free and uniform electrospun pure polystyrene (PS) and PS/Ni nanocomposite fibers are investigated by SEM and TGA/DSC. A higher thermal stability is observed after introducing the nanoparticles in the polymer fibers. FT-IR analysis indicates a physical entanglement rather than chemical bonding between the nanoparticles and the polystyrene matrix. The nanoparticles still exhibit superparamagnetic properties even after dispersing in the polymer matrix, different from the reported enhanced coercivity as a result of the enlarged particle distance. However, the magnetic field required to saturate the magnetization is significantly reduced. A further oxidation is deduced after the high voltage electrospinning process.

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U2 - 10.1002/macp.201000153

DO - 10.1002/macp.201000153

M3 - 文章

AN - SCOPUS:77955761923

SN - 1022-1352

VL - 211

SP - 1775

EP - 1783

JO - Macromolecular Chemistry and Physics

JF - Macromolecular Chemistry and Physics

IS - 16

ER -

Electrospun magnetic fibrillar polystyrene nanocomposites reinforced with nickel nanoparticles

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