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Thallium cations in the analcime framework

Published online by Cambridge University Press:  25 June 2018

A. Dyer*
Affiliation:
Science Research Institute, Chemical Sciences Division, Cockcroft Building, University of Salford, Salford M5 4WT, UK

Abstract

Kyono et al. (1999) have synthesized a thallium leucite. They have drawn conclusions from this relating to cation mobilities. Attention is drawn to alternative explanations and related to extensive previous work.

Type
Research Article
Copyright
Copyright © The Mineralogical Society of Great Britain and Ireland 2000

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References

Barrer, R.M. (1978) Zeolites and Clay Minerals as Sorbents and Molecular Sieves. Academic Press, London.Google Scholar
Beattie, I.R. (1954 a) The structure of analcite and ion-exchanged forms of analcite. Acta Crystallogr., 7, 357–8.CrossRefGoogle Scholar
Beattie, I.R. (1954 b) The electrical conductivity of analcite and ion-exchanged forms of analcite and chabazite. Trans. Faraday Soc., 50, 581–7.CrossRefGoogle Scholar
Beattie, I.R. (1955) The electrical conductivity of partially ion-exchanged form of analcite. Trans. Faraday. Soc., 51, 712–8.CrossRefGoogle Scholar
Beattie, I.R. and Dyer, A. (1957) The diffusion of sodium ions in analcite as a function of water content. Trans. Faraday. Soc., 53, 61–6.CrossRefGoogle Scholar
Ducros, P. (1960) Etude de la mobilite de l'eau et des cations dans quelques zeolite par relaxation dielectrique et resonance magnetique nucleaire. Bull. Soc. Fr. Mineral. Crystallogr., 53, 85112.Google Scholar
Dyer, A. and Yusof, A.M. (1987) Diffusion in heteroionic analcimes: Part 1. Sodium-potassium-water system. Zeolites, 7, 191–6.CrossRefGoogle Scholar
Dyer, A. and Yusof, A.M. (1989) Diffusion in heteroionic analcimes: Part 2. Diffusion of water in sodium/thallium, sodium/lithium, and sodium/ammonium analcimes. Zeolites, 9, 129–35.CrossRefGoogle Scholar
Kyono, A., Kimata, M., Saito, S., Nishida, N. and Hata, T. (1999) Synthesis of thallium-leucite (TlAlSi2O6) pseudomorph after analcime. Mineral. Mag., 63, 7584.CrossRefGoogle Scholar
Moroz, N.K., Afenassyev, I.S., Fursenko, B.A. and Belitsky, I.A. (1998) Ion mobility and dynamic disordering of water in analcime. Phys. Chem. Min., 15, 370–82.Google Scholar
Mortier, W.J. (1982) Compilation of Extra Framework Sites in Zeolites. Butterworth Scientific, Guildford, Surrey, UK.Google Scholar
Norby, P., Krogh Anderson, I.G., Krogh Anderson, E., Colella, C. and de'Gennaro, M. (1991) Synthesis and structure of lithium cesium and lithium thallium cancrinites. Zeolites, 11, 248–53.CrossRefGoogle Scholar
Stamires, D.N. (1962) Effect of adsorbed phases on the electrical conductivity of synthetic zeolites. J. Chem. Phys., 36, 3174–81.CrossRefGoogle Scholar