Magnetic zeolites can be successfully used for removing contaminants from polluted water, as they
can be easily separated by the solution using an external magnetic field. In such a way, the
wastewater treatment becomes simpler than conventional processes, which imply time and energy
consuming centrifugation or filtration steps [1,2].
In this study, a low temperature environmentally friendly synthesis of magnetic zeolites by
hydrothermal activation is presented [3]. The major novelty of the process is the use of a mixture of
waste materials namely, fly ash (FA) and red mud (RM), as precursors to synthesize zeolites with
good magnetic properties in a one step process, i.e. without passing through the additional synthesis
of magnetic nanoparticles, which is commonly used for the preparation of the magnetic zeolites.
The structural properties were investigated by SEM, XRD and TEM and showed that different types
of zeolites (A, X and ZK-5) were obtained for different FA/RM percentages and incubation
temperature. All of them possess sufficiently high magnetic moment to allow their easy separation
by the solution using an external magnet (Fig. 1). The magnetic investigation was carried out by
SQUID and VSM magnetometry. The global magnetic properties of the newly formed minerals
were discussed on the basis of magnetic properties of precursors, where different magnetic behavior
was observed (Fig.1). Good adsorbance properties of the final synthetic products were confirmed