Water Molecules and Hydroxyl Groups in Montmorillonites as Studied by Near Infrared Spectroscopy

F. Cariati; L. Erre; G. Micera; P. Piu; C. Gessa

doi:10.1346/CCMN.1981.0290211

Abstract

An abstract is not available for this content so a preview has been provided. As you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

Image of the first page of this content. For PDF version, please use the ‘Save PDF’ preceeding this image.'

References

Cariati, F., Erre, L., Gessa, C., Micera, G., and Piu, P. (1981) The water molecules polarization in some phyllosilicates in relation to the exchange cations studied by near infrared (NIR) spectroscopy: J. Inorg. Nucl. Chem. (in press).Google Scholar

Fanner, V. C., (1971) The characterization of adsorption bonds in clays by infrared spectroscopy Soil Sci. 112 62–68.Google Scholar

Fanner, V. C., (1974) The Infrared Spectra of Minerals London Mineralogical Society.Google Scholar

Farmer, V. C. and Russell, J. D., (1964) The infrared spectra of layer silicates Spectrochim. Acta 20 1149–1173.CrossRef Google Scholar

Farmer, V. C. and Russell, J. D., (1971) Interlayer complexes in layer silicates: The structure of water in lamellar ionic solutions Trans. Faraday Soc. 67 2737–2749.CrossRef Google Scholar

Herzberg, G., (1945) Molecular Spectra and Molecular Structure. II. Infrared and Raman Spectra of Polyatomic Molecules New York Van Nostrand Company.Google Scholar

Hunt, G. R., (1977) Spectral signatures of particulate minerals in the visible and near infrared Geophysics 42 501–513.CrossRef Google Scholar

Hunt, G. R., (1979) Near-infrared (1.3–2.4 µm) spectra of alteration minerals: Potential for use in remote sensing Geophysics 44 1974–1986.CrossRef Google Scholar

Lindberg, J. D. and Snyder, D. G., (1972) Diffuse reflectance spectra of several clay minerals Amer. Miner. 57 485–493.Google Scholar

Low, P. F., (1979) Nature and properties of water in montmorillonite-water systems Soil Sci. Soc. Amer. J. 43 651–658.CrossRef Google Scholar

McBride, M. B. and Mortland, M. M., (1974) Copper(II) interactions with montmorillonite: evidence from physical methods Soil Sci. Soc. Amer. Proc. 38 408–414.CrossRef Google Scholar

Mortland, M. M. and Raman, K. V., (1968) Surface acidity of smectites in relation to hydration, exchangeable cation, and structure Clays & Clay Minerals 16 393–398.CrossRef Google Scholar

Pietracaprina, A. Novelli, G. and Rinaldi, A., (1972) Bentonite deposit at Uri, Sardinia, Italy Clay Miner. 9 351–355.CrossRef Google Scholar

Poinsignon, C. Cases, J. M. and Fripiat, J. J., (1978) Electrical polarization of water molecules adsorbed by smectites. An infrared study J. Phys. Chem. 82 1855–1860.CrossRef Google Scholar

Suquet, H. Prost, R. and Pezerat, H., (1977) Etude par spectroscopie infrarouge de l’eau adsorbée par la saponite calcium Clay Miner. 12 113–126.CrossRef Google Scholar

Tettenhorst, R., (1962) Cation migration in montmorillonites Amer. Miner. 47 769–773.Google Scholar

Velghe, F. Schoonheydt, R. A. and Uytterhoeven, J. B., (1977) The co-ordination of hydrated Cu(II)- and Ni(II)-ions on montmorillonite surface Clays & Clay Minerals 25 375–380.CrossRef Google Scholar

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Cariati, F. Erre, L. Micera, G. Piu, P. and Gessa, C. 1983. Effects of Layer Charge on the Near-Infrared Spectra of Water Molecules in Smectites and Vermiculites. Clays and Clay Minerals, Vol. 31, Issue. 6, p. 447.

Cariati, F. Erre, L. Micera, G. Piu, P. and Gessa, C. 1983. Polarization of Water Molecules in Phyllosilicates in Relation to Exchange Cations as Studied by Near Infrared Spectroscopy. Clays and Clay Minerals, Vol. 31, Issue. 2, p. 155.

Sposito, Garrison Prost, R. and Gaultier, J.-P. 1983. Infrared Spectroscopic Study of Adsorbed Water on Reduced-Charge Na/Li-Montmorillonites. Clays and Clay Minerals, Vol. 31, Issue. 1, p. 9.

Alberti, A. Cariati, F. Erre, L. Piu, P. and Vezzalini, G. 1983. Spectroscopic investigation on the presence of OH in natural barrerite and in its collapsed phases. Physics and Chemistry of Minerals, Vol. 9, Issue. 5, p. 189.

Coyne, Lelia M. 1985. A possible energetic role of mineral surfaces in chemical evolution. Origins of life and evolution of the biosphere, Vol. 15, Issue. 3, p. 161.

Alberti, A. Vezzalini, G. Cariati, F. Erre, L. and Piu, P. 1985. Dehydration and re-hydration of the zeolites with 4-4-1 SBU's: near i.r. evidence for topological changes in heulandite I. Zeolites, Vol. 5, Issue. 5, p. 289.

Post, James L. and Noble, Paul N. 1993. The Near-Infrared Combination Band Frequencies of Dioctahedral Smectites, Micas, and Illites. Clays and Clay Minerals, Vol. 41, Issue. 6, p. 639.

Bishop, Janice L. Pieters, Carlé M. and Edwards, John O. 1994. Infrared Spectroscopic Analyses on the Nature of Water in Montmorillonite. Clays and Clay Minerals, Vol. 42, Issue. 6, p. 702.

Petit, S. Madejová, J. Decarreau, A. and Martin, F. 1999. Characterization of Octahedral Substitutions in Kaolinites Using Near Infrared Spectroscopy. Clays and Clay Minerals, Vol. 47, Issue. 1, p. 103.

Bruni, S Cariati, F Casu, M Lai, A Musinu, A Piccaluga, G and Solinas, S 1999. IR and NMR study of nanoparticle-support interactions in a Fe2O3-SiO2 nanocomposite prepared by a Sol-gel method. Nanostructured Materials, Vol. 11, Issue. 5, p. 573.

Madejová, J. Bujdák, J. Petit, S. and Komadel, P. 2000. Effects of chemical composition and temperature of heating on the infrared spectra of Li-saturated dioctahedral smectites. (II) Near-infrared region. Clay Minerals, Vol. 35, Issue. 5, p. 753.

Harloff, J. and Arnold, G. 2001. Near-infrared reflectance spectroscopy of bulk analog materials for planetary crust. Planetary and Space Science, Vol. 49, Issue. 2, p. 191.

Ben-Dor, E. 2002. Vol. 75, Issue. , p. 173.

CrossRef

Bishop, J. Madejová, J . Komadel, P. and Fröschl, H. 2002. The influence of structural Fe, Al and Mg on the infrared OH bands in spectra of dioctahedral smectites. Clay Minerals, Vol. 37, Issue. 4, p. 607.

Eypert-Blaison, Céline Michot, Laurent J. Humbert, Bernard Pelletier, Manuel Villiéras, Frédéric and Jean-Baptiste d'Espinose de la Caillerie 2002. Hydration Water and Swelling Behavior of Magadiite. The H+, Na+, K+, Mg2+, and Ca2+ Exchanged Forms. The Journal of Physical Chemistry B, Vol. 106, Issue. 3, p. 730.

Meleshyn, Artur and Bunnenberg, Claus 2005. Swelling of Na∕Mg-montmorillonites and hydration of interlayer cations: A Monte Carlo study. The Journal of Chemical Physics, Vol. 123, Issue. 7,

Rinnert, Emmanuel Carteret, Cedric Humbert, Bernard Fragneto-Cusani, Giovanna Ramsay, John D. F. Delville, Alfred Robert, Jean-Louis Bihannic, Isabelle Pelletier, Manuel and Michot, Laurent J. 2005. Hydration of a Synthetic Clay with Tetrahedral Charges: A Multidisciplinary Experimental and Numerical Study. The Journal of Physical Chemistry B, Vol. 109, Issue. 49, p. 23745.

Weier, Matt L. Frost, Ray L. and Reddy, B. Jagannadha 2005. The Application of near Infrared Spectroscopy for the Detection of Secondary Uranium Minerals Using a Fibre-Optic Probe. Journal of Near Infrared Spectroscopy, Vol. 13, Issue. 6, p. 359.

Kloprogge, J. Theo 2006. Spectroscopic studies of synthetic and natural beidellites: A review. Applied Clay Science, Vol. 31, Issue. 3-4, p. 165.

Petit, S. 2006. Handbook of Clay Science. Vol. 1, Issue. , p. 909.

Download full list

Article contents

Water Molecules and Hydroxyl Groups in Montmorillonites as Studied by Near Infrared Spectroscopy

Abstract

Keywords

References

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Water Molecules and Hydroxyl Groups in Montmorillonites as Studied by Near Infrared Spectroscopy

Abstract

Keywords

References

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests