Abstract
The aim of this work is to investigate the microstructural characteristics and the adsorption potential of zeolitic tuff-metakaolin (ZM) geopolymers. For the identification of microstructure, X-ray diffraction (XRD) and scanning electron microscope (SEM) analyses were used. XRD showed that mordenite, a major zeolite mineral, disappeared upon geopolymerization, while SEM showed that ZM-geopolymers exhibit a uniform porous matrix consisting of nanoparticles (similar to 40nm). The adsorption efficiency of ZM-geopolymers was assessed using solutions containing 250mg/L copper. The experimental results show that the maximum adsorption efficiency (7.8mg Cu2+/g of adsorbent) is observed at an initial zeolitic tuff/metakaolin ratio of 0.5 which indicates that ZM-geopolymers can be used in environmental applications including the clean-up of industrial effluents and wastewaters.