Thermal Intercalation of Alkali Halides into Kaolinite

S. Yariv; I. Lapides; K. H. Michaelian; N. Lahav

doi:10.1023/A:1010187029708

Thermal Intercalation of Alkali Halides into Kaolinite

S. Yariv, I. Lapides, K. H. Michaelian, N. Lahav

Institute of Chemistry

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19 Scopus citations

Abstract

Solid state intercalation of alkali halides into kaolinite takes place by heating pressed disks of dimethylsulfoxide (DMSO)-kaolinite complex ground in different alkali halides. This reaction involves diffusion of the DMSO outside the interlayer space and the alkali halide into the interlayer space. IR and Raman spectroscopy reveal two types of intercalation complexes: (i) almost non-hydrous, obtained during thermal treatment of the DMSO complex; and (ii) hydrated, obtained by regrinding the disk in air. The strength of the hydrogen bonds between intercalated water or halide anions and the inner surface hydroxyls decreases in the order Cl⁻>Br⁻>I⁻. Chlorides penetrate the ditrigonal holes and form hydrogen bonds with the inner OH groups.

Original language	English
Pages (from-to)	865-884
Number of pages	20
Journal	Journal of Thermal Analysis and Calorimetry
Volume	56
Issue number	2
DOIs	https://doi.org/10.1023/A:1010187029708
State	Published - Sep 1999

Bibliographical note

Publisher Copyright:
© 1999, Kluwer Academic Publishers.

Keywords

alkali halides
intercalation
kaolinite intercalation complexes
mechanochemical intercalation
thermal intercalation

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title = "Thermal Intercalation of Alkali Halides into Kaolinite",

abstract = "Solid state intercalation of alkali halides into kaolinite takes place by heating pressed disks of dimethylsulfoxide (DMSO)-kaolinite complex ground in different alkali halides. This reaction involves diffusion of the DMSO outside the interlayer space and the alkali halide into the interlayer space. IR and Raman spectroscopy reveal two types of intercalation complexes: (i) almost non-hydrous, obtained during thermal treatment of the DMSO complex; and (ii) hydrated, obtained by regrinding the disk in air. The strength of the hydrogen bonds between intercalated water or halide anions and the inner surface hydroxyls decreases in the order Cl−>Br−>I−. Chlorides penetrate the ditrigonal holes and form hydrogen bonds with the inner OH groups.",

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author = "S. Yariv and I. Lapides and Michaelian, {K. H.} and N. Lahav",

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doi = "10.1023/A:1010187029708",

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AU - Yariv, S.

AU - Lapides, I.

AU - Michaelian, K. H.

AU - Lahav, N.

PY - 1999/9

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N2 - Solid state intercalation of alkali halides into kaolinite takes place by heating pressed disks of dimethylsulfoxide (DMSO)-kaolinite complex ground in different alkali halides. This reaction involves diffusion of the DMSO outside the interlayer space and the alkali halide into the interlayer space. IR and Raman spectroscopy reveal two types of intercalation complexes: (i) almost non-hydrous, obtained during thermal treatment of the DMSO complex; and (ii) hydrated, obtained by regrinding the disk in air. The strength of the hydrogen bonds between intercalated water or halide anions and the inner surface hydroxyls decreases in the order Cl−>Br−>I−. Chlorides penetrate the ditrigonal holes and form hydrogen bonds with the inner OH groups.

AB - Solid state intercalation of alkali halides into kaolinite takes place by heating pressed disks of dimethylsulfoxide (DMSO)-kaolinite complex ground in different alkali halides. This reaction involves diffusion of the DMSO outside the interlayer space and the alkali halide into the interlayer space. IR and Raman spectroscopy reveal two types of intercalation complexes: (i) almost non-hydrous, obtained during thermal treatment of the DMSO complex; and (ii) hydrated, obtained by regrinding the disk in air. The strength of the hydrogen bonds between intercalated water or halide anions and the inner surface hydroxyls decreases in the order Cl−>Br−>I−. Chlorides penetrate the ditrigonal holes and form hydrogen bonds with the inner OH groups.

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KW - intercalation

KW - kaolinite intercalation complexes

KW - mechanochemical intercalation

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Thermal Intercalation of Alkali Halides into Kaolinite

Abstract

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Keywords

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