Preparation and characterization of super-fine FeCl3-graphite intercalation compounds

Hui Ren; Qing Jie Jiao; Qing Zhong Cui

Preparation and characterization of super-fine FeCl₃-graphite intercalation compounds

Hui Ren^*, Qing Jie Jiao, Qing Zhong Cui

^*Corresponding author for this work

School of Mechatronical Engineering

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

Abstract

The natural graphite was used as main body to prepare super-fine FeCl₃-GIC by means of ration-blended method. The layer structure of samples was investigated by X-ray diffraction. The results show that stage structure is 3 and 4 stage co-existed, and primary element of product is 3 stage. The lattice distance of 3 stage FeCl₃-GIC is 0.945 nm. The magnetization intensity and magnetic susceptibility of FeCl₃-GIC were measured with vibration magnetometer. With energy dispersion spectrometer, the concentration change of carriers was shown. The charge transfer model was set up and GIC's conductive mechanism was analyzed. Moreover, the property of super-fine FeCl₃-GIC interfering infrared imaging apparatus was tested. The results show that product can shield photoelectricity instrument at the military far infrared frequency.

Original language	English
Pages (from-to)	308-311
Number of pages	4
Journal	Hanneng Cailiao/Chinese Journal of Energetic Materials
Volume	13
Issue number	5
Publication status	Published - Oct 2005

Keywords

Conductive mechanism
Extinction
Graphite intercalation compounds (GIC)
Military chemistry and pyrotechnics

Cite this

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title = "Preparation and characterization of super-fine FeCl3-graphite intercalation compounds",

abstract = "The natural graphite was used as main body to prepare super-fine FeCl3-GIC by means of ration-blended method. The layer structure of samples was investigated by X-ray diffraction. The results show that stage structure is 3 and 4 stage co-existed, and primary element of product is 3 stage. The lattice distance of 3 stage FeCl3-GIC is 0.945 nm. The magnetization intensity and magnetic susceptibility of FeCl3-GIC were measured with vibration magnetometer. With energy dispersion spectrometer, the concentration change of carriers was shown. The charge transfer model was set up and GIC's conductive mechanism was analyzed. Moreover, the property of super-fine FeCl3-GIC interfering infrared imaging apparatus was tested. The results show that product can shield photoelectricity instrument at the military far infrared frequency.",

keywords = "Conductive mechanism, Extinction, Graphite intercalation compounds (GIC), Military chemistry and pyrotechnics",

author = "Hui Ren and Jiao, {Qing Jie} and Cui, {Qing Zhong}",

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pages = "308--311",

journal = "Hanneng Cailiao/Chinese Journal of Energetic Materials",

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publisher = "Chinese Academy of Engineering Physics",

number = "5",

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TY - JOUR

T1 - Preparation and characterization of super-fine FeCl3-graphite intercalation compounds

AU - Ren, Hui

AU - Jiao, Qing Jie

AU - Cui, Qing Zhong

PY - 2005/10

Y1 - 2005/10

N2 - The natural graphite was used as main body to prepare super-fine FeCl3-GIC by means of ration-blended method. The layer structure of samples was investigated by X-ray diffraction. The results show that stage structure is 3 and 4 stage co-existed, and primary element of product is 3 stage. The lattice distance of 3 stage FeCl3-GIC is 0.945 nm. The magnetization intensity and magnetic susceptibility of FeCl3-GIC were measured with vibration magnetometer. With energy dispersion spectrometer, the concentration change of carriers was shown. The charge transfer model was set up and GIC's conductive mechanism was analyzed. Moreover, the property of super-fine FeCl3-GIC interfering infrared imaging apparatus was tested. The results show that product can shield photoelectricity instrument at the military far infrared frequency.

AB - The natural graphite was used as main body to prepare super-fine FeCl3-GIC by means of ration-blended method. The layer structure of samples was investigated by X-ray diffraction. The results show that stage structure is 3 and 4 stage co-existed, and primary element of product is 3 stage. The lattice distance of 3 stage FeCl3-GIC is 0.945 nm. The magnetization intensity and magnetic susceptibility of FeCl3-GIC were measured with vibration magnetometer. With energy dispersion spectrometer, the concentration change of carriers was shown. The charge transfer model was set up and GIC's conductive mechanism was analyzed. Moreover, the property of super-fine FeCl3-GIC interfering infrared imaging apparatus was tested. The results show that product can shield photoelectricity instrument at the military far infrared frequency.

KW - Conductive mechanism

KW - Extinction

KW - Graphite intercalation compounds (GIC)

KW - Military chemistry and pyrotechnics

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JO - Hanneng Cailiao/Chinese Journal of Energetic Materials

JF - Hanneng Cailiao/Chinese Journal of Energetic Materials

IS - 5

ER -

Preparation and characterization of super-fine FeCl₃-graphite intercalation compounds

Abstract

Keywords

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