• Published : 2003.02.28



  1. Allmann, R., "The Crystal Structure of Pyroaurite," Acta Crystallogr., Sect.B, 24, 972-977 (1968).
  2. Brindley, G. W. and Kikkawa, S., "A Crystal-Chemical Study of Mg,Al and Ni,Al Hydroxy-Perchlorates and Hydroxy-Carbonates," Am. Mineral, 64, 836-843 (1979).
  3. Taylor, H. F. W., "Crystal Structure of Some Double Hydroxide Minerals," Mineral. Mag., 39, 377-389 (1973).
  4. Miyata, S., "Physico-Chemical Properties of Synthetic Hydrotalcites in Relation to Composition," Clays Clay Miner., 28, 50-55 (1980).
  5. Chibwe, M. and Jones, W., "Intercalation of Organic and Inorganic Anions into Layered Double Hydroxides," J Chem. Soc., Chem. Commun., 926-929 (1989).
  6. Cavani, F., Trifiro, F., and Vaccari, A., "Hydrotalcite-Type Anioic Clays: Preparation, Properties and Applications," Catal. Today,11, 173-301 (1991).
  7. Miyata, S., "Anion-Exchange Properties of Hydrotalcite-Like Compounds," Clays Clay Miner., 31, 305-311 (1983).
  8. Reichle, W. T., Kang, S. Y., and Everhardt, D. S., "The Nature of the Thermal Decomposition of a Catalytically Active Anionic Clay Mineral," J Catal., 101, 352-359 (1986).
  9. Reichle, W. T., "Synthesis of Anionic Clay Minerals (Mixed Metal Hydroxides, Hydrotalcite)," Solid States lonics, 22, 135-141 (1986).
  10. Sato, T., Kato, K., Endo, T., and Shimada, M., "Preparation and Chemical Properties of Magnesium Aluminum Oxide Solid Solutions," React. Solids, 2, 253-260 (1986).
  11. Constantino, V. R. L., and Pinnavaia, T. J., "Basic Properties of $Mg^{2+}$ $_{1-x}Al^{3+}_{x}$ Layered Double Hydroxides Intercalated by Carbonate, Hydroxide, Chloride, and Sulfate Anions," Inorg. Chem., 34, 883-892 (1995).
  12. Sato, T., Wakabayashi, T., and Shimada, M., "Adsorption of Various Anions by Magnesium Aluminum Oxide ($ Mg_{0.7}Al_{0.3}O_{1.15}$)," Ind. Eng. Chem. Prod. Res. Dev. , 25, 89-92 (1986).
  13. Parker, L. M., Milestone, N. B., and Newman, R. H., "The use of HydrotaJcite as an Anion Absorbant," Ind. Eng. Chem. Res., 34, 1196-1202 (1995).
  14. Goswamee, R. L., Sengupa, P., Bhattacharyya, K. G., and Dutra, D. K., "Adsorption of Cr(VI) in Layered Double Hydroxides," Applied Clay Science, 13, 21-34 (1998).
  15. Lieser, K. H., "Technetium in the Nuclear Fuel Cycle, in Medicine and in the Environment," Radiochim. Acta, 63, 5-8 (1993).
  16. Fried, S., Friedman, A. M., Cohen, D., Hines, J. J., and Strickert, R. G., The Migration of Long-Lived Radioactive Processing Wastes in the Selected Rocks, ANL-78-46 (1978)
  17. Palmer, D. A. and Meyer, R. E., "Adsorption of Technetium on Selected Inorganic Ion-Exchange Materials and on a Range of Naturally Occurring Minerals under Oxic Conditions," J. Inorg. Nucl. Chem., 43, 2979-2984 (1981).
  18. Dyer, A. and Jamil, M. A.,Inorganic Anion Exchangers for the Treatment of Radioactive Wastes, Report DOW/RW/88- 100 (1988).
  19. Zhuang, H. E., Zheng, J. S., Xia, D. Y., and Zhu, Z. G., "Retardation of Technetium and Iodine by Antimony- and Mercury-Containing Minerals," Radiochim. Acta, 68, 245-249 (1995).
  20. Kang, M. J., Rhee, S. W., Moon, H., Neck, V., and Fanghanel, Th., "Sorption of MO4 (M = Tc, Re) on Mg/AI Layered Double Hydroxide by Anion Exchange," Radiochim. Acta, 75, 169-173 (1996).
  21. Rhee, S. W., Kang, M. J., Kim, H., and Moon, H., "Removal of Aqueous Chromate Ion Involving Rehydration Reaction of Calcined Layered Double Hydroxide (Mg-AI -$CO_{3}$)," Environ. Technol., 18, 231-236 (1997).
  22. Cotton, F. A. and Wilkinson, G., Advanced Inorganic Chemistry, John Wiley & Sons, Inc., Sigapore (1988).
  23. Rhee, S. W., Kang, M. J., and Moon, H., "Characterization of Layered Double Hydroxides (Mg-Al-$CO_{3}$ systems) and Rehydration Reaction of Their Calcined Products in Aqueous Chromate Solution," J. Kor. Chem. Soc., 39(8), 627-634 (1995).
  24. Brown, G. and Gastuche, M. C., "Mixed Magnesium-Aluminum Hydroxides: II. Structure and Structural Chemistry of Synthetic Hydroxycarbonates and Related Minerals and Compounds," Clay Miner., 7, 193-201 (1967).
  25. MacKenzie, K. J. D., Meinhold, R. H., Sherriff, B. L., and Xu, Z., "$^{27}Al$ and $^{25}Mg$ Solid-State Magic-Angle Spinning Nuclear Magnetic Resonance Study of Hydrotalcite and its Thermal Decomposition Sequence," J. Mater. Chem., 3, 1263-1269 (1993).

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