Synthesis of a faujasite thin layer and its application for SO2 sensing at elevated temperatures

A faujasite thin layer is synthesized on a quartz crystal microbalance (QCM ) with an Au electrode without seed crystals, and applied to a gas sensor. Faujasite synthesis is often accompanied by the production of zeolite P as a by-product, which would be an obstacle for gas sensing. Seed crystals tend to result in an irregular layer structure which is unfavorable in view of the stable oscillation of the QCM. In this study, therefore, the synthesis conditions (i.e. composition of the synthesis solution, aging time and reaction time) are optimized so that the minimum amount of zeolite P is yielded. After optimization of the synthesis conditions, the synthetic faujasite layers on a QCM with a fundamental resonance frequency of 5.4 MHz frequency are installed into the oscillating circuit. When SO 2 gas molecules are adsorbed on the faujasite layer, the mass increase reduces the QCM frequency. Since the frequency shift of the QCM is proportional to the amount of SO 2 adsorbed, the gas-phase concentration can be measured from the shift. Preliminary sensing results regarding the influence of SO 2 concentration and the coexistence of O 2 are reported.