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Montmorillonite-Benzidine reactions in the frozen and dry states

Published online by Cambridge University Press:  01 July 2024

N. Lahav  and
D. M. Anderson
N. Lahav
Affiliation:
Department of Soil Science, The Hebrew University of Jerusalem, Faculty of Agriculture, Rehovot, Israel
D. M. Anderson
Affiliation:
U.S. Army Cold Regions Research and Engineering Laboratory Hanover, New Hampshire 03755, U.S.A.
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Abstract

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Type
Notes
Information
Clays and Clay Minerals , Volume 21 , Issue 2 , April 1973 , pp. 137 - 139
Copyright
Copyright © 1973 The Clay Minerals Society

References

Anderson, D. M., (1967) The interface between ic. and silicate surfaces J. Colloid Interface Sci. 25 174191.CrossRefGoogle Scholar
Anderson, D. M. and Tice, A. R., (1971) Low-temperature phases of interfacial water in clay-water system Soil Sci. Soc. Am. Proc. 35 4754.CrossRefGoogle Scholar
Anderson, D. M. and Tice, A. R., (1972) The unfrozen interfacial phase in frozen soil water systems Proc. Int. Symp. Soil-Water Physics Tech. Berlin Rehovot, Israel, Springer.Google Scholar
Banin, A. and Lahav, N., (1968) Particle siz. and optical properties of montmorillonite in suspension Israel J. Chem. 6 235250.CrossRefGoogle Scholar
Barshad, I., (1960) X-ray analysis of soil colloids by a modified salted paste method Clay. and Clay Minerals 2 209217.Google Scholar
Dodd, C. G. and Ray, S., (1960) Semiquinone cation adsorption on montmorillonite as a function of surface acidity Clay. and Clay Minerals 8 237251.CrossRefGoogle Scholar
Greene-Kelley, R., (1955) Sorption of aromatic compounds by montmorillonite —I. Orientation studies Trans. Farady Soc. 51 412424.CrossRefGoogle Scholar
Kotov, E. I., (1955) Spectral investigation of the interaction of benzidine with surfaces of bentonite, alumino-silicate-gel. and silica gel Optika i Spektroslcoprya 1 500506.Google Scholar
Lahav, N. and Raziel, S., (1971) Interaction between montmorillonit. and benzidine in aqueous solutions — I. Adsorption of benzidine on montmorillonite Israel J. Chem. 9 683689.CrossRefGoogle Scholar
Lahav, N. and Raziel, S., (1971) Interaction between montmorillonit. and benzidine in aquaeous solutions — IL A general kinetic study Israel J. Chem. 9 691694.CrossRefGoogle Scholar
Lahav, N., (1972) Interaction between montmorillonit. and benzidine in aqueous solutions —III. The color reaction in the air dry state Israel J. Chem. 10 925934.CrossRefGoogle Scholar
Mortland, M. M., Fripiat, J. J., Chaussidon, J. and Uytterhoeven, J., (1963) Interaction between ammoni. and the expanding lattices of montmorillonit. and vermiculite J. Phys. Chem. 67 248258.CrossRefGoogle Scholar
Mortland, M. M. and Raman, K. V., (1968) Surface acidity of smectites in relation to hydration, exchangeable cation. and structure Clay. and Clay Minerals 16 393398.CrossRefGoogle Scholar
Solomon, D. H., (1968) Clay minerals as electron acceptors and/or electron donors in organic reactions Clay. and Clay Minerals 16 3139.CrossRefGoogle Scholar
Takahashi, H., (1955) The effect of layered water on the color reaction of benzidin. and other similar compounds Bull. Chem. Soc. 28 59.CrossRefGoogle Scholar
Theng, B. K. G., (1971) Mechanisms of formation of colored clay-organic complexes. A review Clay. and Clay Minerals 19 383390.CrossRefGoogle Scholar
Touillaux, R., Salvador, P., Vandermeersche, C. and Fripiat, J., (1968) Study of water layers adsorbed on Na. and Ca-montmorillonite by the pulsed nuclear magnetic resonance technique Israel J. Chem. 6 337348.CrossRefGoogle Scholar