Establishing the occupation of supercage sites by silver ions using the response of partially silver-exchanged zeolite X- and Y-modified electrodes

Exclusive occupancy of the sodalite cage and hexagonal-prism (small-channel network) sites of zeolites X and Y by silver ions results in an attenuated electrochemical response of zeolite-modified electrodes (ZMEs) compared wi th the case where silver ions occupy supercage sites. When silver ions loca ted in the small-channel network, the initial redox current was a minimum, and grew slowly as the electrode was repeatedly cycled. Electrodes showed t he reverse behavior when silver ions resided in the supercages, in that the initial redox current was a maximum and decayed rapidly. The maximum curre nt due to silver ions in the small-channel network, computed using the peak current for the oxidation recorded in NaNO3, is less than 10 mu A per Agion per unit cell (uc). In contrast, modified electrodes in which silver io ns occupy supercage sites produced maximum peak currents of ca. 200 mu A pe r Ag+ ion per uc in the same electrolyte. In this paper we use this informa tion to identify the general locations of silver ions in X and Y zeolites. At less than 5 Ag+ ions uc(-1) silver ions preferentially occupy supercage sites in zeolite Y. In zeolite X silver ions exclusively locate in the smal l-channel network at loadings of less than 5 Ag+ ions uc(-1).