Synthesis and magnetic characterizations of three-dimensional iron sulfide nanostructures

X. L. Yu; Y. Wang; R. K. Zheng; J. F. Qu; H. L.W. Chan; C. B. Cao

doi:10.1021/cg701021p

Synthesis and magnetic characterizations of three-dimensional iron sulfide nanostructures

X. L. Yu, Y. Wang^*, R. K. Zheng, J. F. Qu, H. L.W. Chan, C. B. Cao

^*Corresponding author for this work

School of Material Science and Engineering

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

17 Citations (Scopus)

Abstract

Three-dimensional iron sulfide nanostractures have been synthesized by a chemical evaporation method. Scanning electron microscopy measurements indicate that the iron sulfide has a unique three-dimensional dumbbell-like nanostructure that consists of hexagonal plates and nanowires with compositions of Fe ₉S₈ and Fe₇S₈, respectively. X-ray diffraction measurements reveal that both the plates and nanowires are well crystallized. On the basis of the morphology of the nanostractures, a growth mechanism was proposed to explain the formation of such unique nanostractures. The magnetic properties of the iron sulfide were characterized under different conditions. It was found that the nanostractures are ferrimagnetic, which is manifested by magnetic hysteresis loops at room temperature.

Original language	English
Pages (from-to)	1293-1296
Number of pages	4
Journal	Crystal Growth and Design
Volume	9
Issue number	3
DOIs	https://doi.org/10.1021/cg701021p
Publication status	Published - 4 Mar 2009

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abstract = "Three-dimensional iron sulfide nanostractures have been synthesized by a chemical evaporation method. Scanning electron microscopy measurements indicate that the iron sulfide has a unique three-dimensional dumbbell-like nanostructure that consists of hexagonal plates and nanowires with compositions of Fe 9S8 and Fe7S8, respectively. X-ray diffraction measurements reveal that both the plates and nanowires are well crystallized. On the basis of the morphology of the nanostractures, a growth mechanism was proposed to explain the formation of such unique nanostractures. The magnetic properties of the iron sulfide were characterized under different conditions. It was found that the nanostractures are ferrimagnetic, which is manifested by magnetic hysteresis loops at room temperature.",

author = "Yu, {X. L.} and Y. Wang and Zheng, {R. K.} and Qu, {J. F.} and Chan, {H. L.W.} and Cao, {C. B.}",

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T1 - Synthesis and magnetic characterizations of three-dimensional iron sulfide nanostructures

AU - Yu, X. L.

AU - Wang, Y.

AU - Zheng, R. K.

AU - Qu, J. F.

AU - Chan, H. L.W.

AU - Cao, C. B.

PY - 2009/3/4

Y1 - 2009/3/4

N2 - Three-dimensional iron sulfide nanostractures have been synthesized by a chemical evaporation method. Scanning electron microscopy measurements indicate that the iron sulfide has a unique three-dimensional dumbbell-like nanostructure that consists of hexagonal plates and nanowires with compositions of Fe 9S8 and Fe7S8, respectively. X-ray diffraction measurements reveal that both the plates and nanowires are well crystallized. On the basis of the morphology of the nanostractures, a growth mechanism was proposed to explain the formation of such unique nanostractures. The magnetic properties of the iron sulfide were characterized under different conditions. It was found that the nanostractures are ferrimagnetic, which is manifested by magnetic hysteresis loops at room temperature.

AB - Three-dimensional iron sulfide nanostractures have been synthesized by a chemical evaporation method. Scanning electron microscopy measurements indicate that the iron sulfide has a unique three-dimensional dumbbell-like nanostructure that consists of hexagonal plates and nanowires with compositions of Fe 9S8 and Fe7S8, respectively. X-ray diffraction measurements reveal that both the plates and nanowires are well crystallized. On the basis of the morphology of the nanostractures, a growth mechanism was proposed to explain the formation of such unique nanostractures. The magnetic properties of the iron sulfide were characterized under different conditions. It was found that the nanostractures are ferrimagnetic, which is manifested by magnetic hysteresis loops at room temperature.

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JO - Crystal Growth and Design

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Synthesis and magnetic characterizations of three-dimensional iron sulfide nanostructures

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