Cation exchange capacity of kaolinite

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Cation exchange capacity of kaolinite

Chi Ma, and Richard A. Eggleton

Australian National University, Department of Geology, Canberra, Australia

Experimental cation exchange capacities (CEC) of kaolinites were determined and compared to theoretical calculations of CEC. The comparison reveals that the exchangeable cations occur mostly on the edges and on the basal (OH) surfaces of the mineral. It also shows that permanent negative charge from isomorphous substitution of Al (super 3+) for Si (super 4+) is insignificant. The CEC of kaolinite strongly depends on the particle size (both thickness and diameter in the (00l plane) and pH value. Particle size is more important than crystallinity in affecting kaolinite CEC. This study shows that the hydroxyls on the exposed basal surfaces may be ionizable in aqueous solutions. The amount of negative charge on the edges and the exposed basal hydroxyls depends on pH and other ion concentrations. A higher pH value gives rise to more negative charges, which lead to a higher CEC value. This study indicates that charge from broken edges and exposed OH planes rather than charge from Al/Si substitution determines the kaolinite CEC, even at zero point charge. A high CEC in some kaolinites is found to be due to smectite layers on the surface of the kaolinite crystals.

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				M. Le Gleuher, R. R. Anand, R. A. Eggleton, and N. Radford Mineral hosts for gold and trace metals in regolith at Boddington gold deposit and Scuddles massive copper-zinc sulphide deposit, Western Australia: an LA-ICP-MS study Geochemistry: Exploration, Environment, Analysis, May 1, 2008; 8(2): 157 - 172. [Abstract] [Full Text] [PDF]

				S. BATTAGLIA, L. LEONI, and F. SARTORI A method for determining the CEC and chemical composition of clays via XRF Clay Minerals, September 1, 2006; 41(3): 717 - 725. [Abstract] [Full Text] [PDF]

				J. M. Breiner, M. A. Anderson, H. W. K. Tom, and R. C. Graham PROPERTIES OF SURFACE-MODIFIED COLLOIDAL PARTICLES Clays and Clay Minerals, February 1, 2006; 54(1): 12 - 24. [Abstract] [Full Text] [PDF]

				E. JOUSSEIN, S. PETIT, J. CHURCHMAN, B. THENG, D. RIGHI, and B. DELVAUX Halloysite clay minerals -- a review Clay Minerals, December 1, 2005; 40(4): 383 - 426. [Abstract] [Full Text] [PDF]

				W. Kanket, A. Suddhiprakarn, I. Kheoruenromne, and R. J. Gilkes CHEMICAL AND CRYSTALLOGRAPHIC PROPERTIES OF KAOLIN FROM ULTISOLS IN THAILAND Clays and Clay Minerals, October 1, 2005; 53(5): 478 - 489. [Abstract] [Full Text] [PDF]

				J. L. Bersillon, J.-L. BERSILLON, F. VILLIERAS, L. MICHOT, and J.-M. CASES A new way of assessing clay cation adsorption using normalized salt concentration Clay Minerals, June 1, 2003; 38(2): 233 - 242. [Abstract] [Full Text] [PDF]

				R. D. Hart, R. D. HART, W. WIRIYAKITNATEEKUL, and R. J. GILKES Properties of soil kaolins from Thailand Clay Minerals, March 1, 2003; 38(1): 71 - 94. [Abstract] [Full Text] [PDF]

				G. Jozefaciuk and G. Jozefaciuk EFFECT OF ACID AND ALKALI TREATMENTS ON SURFACE-CHARGE PROPERTIES OF SELECTED MINERALS Clays and Clay Minerals, October 1, 2002; 50(5): 647 - 656. [Abstract] [Full Text] [PDF]

				B. R. Bickmore, K. L. Nagy, P. E. Sandlin, and T. S. Crater Quantifying surface areas of clays by atomic force microscopy American Mineralogist, May 1, 2002; 87(5-6): 780 - 783. [Abstract] [Full Text] [PDF]

				L. J. MICHOT and F. VILLIERAS Assessment of surface energetic heterogeneity of synthetic Na-saponites. The role of layer charge Clay Minerals, March 1, 2002; 37(1): 39 - 57. [Abstract] [Full Text] [PDF]