Effect of Oxidation and Reduction on Potassium Exchange of Biotite

Abstract

The selectivity of K over Ca of Amelia biotite increased sharply upon oxidation by H₂O₂ at pH 6·0. This increase in K selectivity was only partially reversible upon reduction by Na₂S₂O₄. Oxidation by H₂O₂ of the Ca-form of this biotite resulted in a loss of no more than 2·8 and 0·4 per cent of the total Fe and Al, respectively, and caused a small and perhaps insignificant decrease in layer charge. Although 95 per cent of the structural Fe²⁺ of the Ca-form of this biotite was ozidized by H₂O₂, only 17 per cent was reduced again by four treatments with Na₂S₂O₄.The evidence indicates that under the conditions of this experiment the loss of protons from structural hydroxyls was the dominant mechanism by which electroneutrality in the biotite was maintained during oxidation of structural Fe²⁺. Because this mechanism increases the bond strength of interlayer K, it explains the increased K selectivity of biotite upon H₂O₂ oxidation. The relatively small reduction by Na₂S₂O₄ of structural Fe³⁺ to Fe²⁺, which implies an equally small reprotonation of structural hydroxyls, explains the incomplete reversibility of K selectivity by Na₂S₂O₄ treatment.