Infrared study of the intercalation of kaolinite by caesium bromide and caesium iodide

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

doi:10.1006/jcis.1998.5577

Infrared study of the intercalation of kaolinite by caesium bromide and caesium iodide

K. H. Michaelian^*, I. Lapides, N. Lahav, S. Yariv, I. Brodsky

^*Corresponding author for this work

Institute of Chemistry

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

23 Scopus citations

Abstract

CsBr- and CsI-kaolinite intercalation complexes were synthesized by gradually heating caesium halide disks of the DMSO-kaolinite intermediate up to 330°C. Infrared spectroscopy revealed two types of complexes with the caesium salts: almost nonhydrous, obtained during thermal treatment of the DMSO complex, and hydrated, produced by regrinding the disk in air. Comparison of band positions for CsBr-kaolinite and CsI-kaolinite with those for the CsCl complex (observed in a previous study) shows that the strength of the hydrogen bond between the intercalated halide and the inner surface hydroxyl decreases on the order CsCl > CsBr > CsI. The nonreactivity of CsI in mechanochemical intercalation may arise from weak interaction between I^- and inner surface hydroxyl groups, resulting from the fact that caesium is a very soft acid and iodide is a very soft base. Consequently, the very strong interaction between the two ions in the crystal is not disrupted during mechanochemical treatment.

Original language	English
Pages (from-to)	389-393
Number of pages	5
Journal	Journal of Colloid and Interface Science
Volume	204
Issue number	2
DOIs	https://doi.org/10.1006/jcis.1998.5577
State	Published - 15 Aug 1998

Keywords

Alkali halide-kaolinite intercalation complex
Caesium bromide
Caesium iodide
DMSO-kaolinite intercalation complex
Kaolinite

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10.1006/jcis.1998.5577

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title = "Infrared study of the intercalation of kaolinite by caesium bromide and caesium iodide",

abstract = "CsBr- and CsI-kaolinite intercalation complexes were synthesized by gradually heating caesium halide disks of the DMSO-kaolinite intermediate up to 330°C. Infrared spectroscopy revealed two types of complexes with the caesium salts: almost nonhydrous, obtained during thermal treatment of the DMSO complex, and hydrated, produced by regrinding the disk in air. Comparison of band positions for CsBr-kaolinite and CsI-kaolinite with those for the CsCl complex (observed in a previous study) shows that the strength of the hydrogen bond between the intercalated halide and the inner surface hydroxyl decreases on the order CsCl > CsBr > CsI. The nonreactivity of CsI in mechanochemical intercalation may arise from weak interaction between I- and inner surface hydroxyl groups, resulting from the fact that caesium is a very soft acid and iodide is a very soft base. Consequently, the very strong interaction between the two ions in the crystal is not disrupted during mechanochemical treatment.",

keywords = "Alkali halide-kaolinite intercalation complex, Caesium bromide, Caesium iodide, DMSO-kaolinite intercalation complex, Kaolinite",

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

year = "1998",

month = aug,

day = "15",

doi = "10.1006/jcis.1998.5577",

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T1 - Infrared study of the intercalation of kaolinite by caesium bromide and caesium iodide

AU - Michaelian, K. H.

AU - Lapides, I.

AU - Lahav, N.

AU - Yariv, S.

AU - Brodsky, I.

PY - 1998/8/15

Y1 - 1998/8/15

N2 - CsBr- and CsI-kaolinite intercalation complexes were synthesized by gradually heating caesium halide disks of the DMSO-kaolinite intermediate up to 330°C. Infrared spectroscopy revealed two types of complexes with the caesium salts: almost nonhydrous, obtained during thermal treatment of the DMSO complex, and hydrated, produced by regrinding the disk in air. Comparison of band positions for CsBr-kaolinite and CsI-kaolinite with those for the CsCl complex (observed in a previous study) shows that the strength of the hydrogen bond between the intercalated halide and the inner surface hydroxyl decreases on the order CsCl > CsBr > CsI. The nonreactivity of CsI in mechanochemical intercalation may arise from weak interaction between I- and inner surface hydroxyl groups, resulting from the fact that caesium is a very soft acid and iodide is a very soft base. Consequently, the very strong interaction between the two ions in the crystal is not disrupted during mechanochemical treatment.

AB - CsBr- and CsI-kaolinite intercalation complexes were synthesized by gradually heating caesium halide disks of the DMSO-kaolinite intermediate up to 330°C. Infrared spectroscopy revealed two types of complexes with the caesium salts: almost nonhydrous, obtained during thermal treatment of the DMSO complex, and hydrated, produced by regrinding the disk in air. Comparison of band positions for CsBr-kaolinite and CsI-kaolinite with those for the CsCl complex (observed in a previous study) shows that the strength of the hydrogen bond between the intercalated halide and the inner surface hydroxyl decreases on the order CsCl > CsBr > CsI. The nonreactivity of CsI in mechanochemical intercalation may arise from weak interaction between I- and inner surface hydroxyl groups, resulting from the fact that caesium is a very soft acid and iodide is a very soft base. Consequently, the very strong interaction between the two ions in the crystal is not disrupted during mechanochemical treatment.

KW - Alkali halide-kaolinite intercalation complex

KW - Caesium bromide

KW - Caesium iodide

KW - DMSO-kaolinite intercalation complex

KW - Kaolinite

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ER -

Infrared study of the intercalation of kaolinite by caesium bromide and caesium iodide

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