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Modification of the Kaolinite Hydroxyl Surfaces through Intercalation with Potassium Acetate under Pressure

✍ Scribed by Ray L. Frost; Janos Kristof; Gina N. Paroz; J.Theo Kloprogge

Publisher: Elsevier Science
Year: 1998
Tongue: English
Weight: 146 KB
Volume: 208
Category: Article
ISSN: 0021-9797
DOI: 10.1006/jcis.1998.5855

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✦ Synopsis

Kaolinite hydroxyl surfaces have been modified upon intercalation with potassium acetate under a range of conditions. Modification is observed by changes in the hydroxyl stretching region using Raman and infrared spectroscopy. Upon the intercalation of low defect kaolinite with potassium acetate under a pressure of 20 bars and 220°C, the Raman spectra showed additional bands at 3590, 3603, and 3609 cm ؊1 . The DRIFT spectra of this intercalate showed new bands at 3595 and 3605 cm ؊1 . These bands are attributed to the inner surface hydroxyls hydrogen bonded to the acetate anion. Intercalation under 20 bars pressure at 220°C caused the differentiation of the inner surface hydroxyl groups, resulting in these additional bands. By using milder conditions of 2 bars and at 120°C, additional Raman bands were found at 3592, 3600, and 3606 cm ؊1 . If the kaolinite was intercalated at 1 bar and 100°C, a new broad Raman band was found at 3605 cm ؊1 . It is proposed that the effect of intercalation of the low defect kaolinite under pressure caused the kaolinite to become disordered and this disordering was dependent upon the temperature of intercalation.

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