Adsorption of volatile organic compounds in pure silica CHA, ∗BEA, MFI and STT-type zeolites

[Display omitted] ► Four pure silica zeolites, chabazite, SSZ-23, silicalite-1 and beta were synthesized. ► Their sorption properties were examined using gravimetric method combined with GCMC simulations. ► A decrease in the adsorption capacity is observed with increasing the molar volume of the pro...

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Published in:Microporous and mesoporous materials 2013-06, Vol.173, p.147-154
Main Authors: Cosseron, A.-F., Daou, T.J., Tzanis, L., Nouali, H., Deroche, I., Coasne, B., Tchamber, V.
Format: Article
Language:English
Subjects:
Cage-like structure
Channel structure
Chemical Sciences
Chemistry
Colloidal state and disperse state
Exact sciences and technology
General and physical chemistry
Hydrophobic zeolite
Ion-exchange
Material chemistry
Porous materials
Surface physical chemistry
VOC adsorption
Zeolite
Zeolites: preparations and properties
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Summary:[Display omitted] ► Four pure silica zeolites, chabazite, SSZ-23, silicalite-1 and beta were synthesized. ► Their sorption properties were examined using gravimetric method combined with GCMC simulations. ► A decrease in the adsorption capacity is observed with increasing the molar volume of the probe. ► A decrease in the adsorption capacity is observed with increasing the temperature. ► At higher temperature, the window size of CHA-type zeosil widens. Four pure silica zeolites, chabazite (CHA-structure type) and SSZ-23 (STT-structure type) with cage-like structure and silicalite-1 (MFI-structure type) and beta (∗BEA-structure type) with channel structure, were synthesized and fully characterized. Their sorption properties were examined using gravimetric method combined with Grand Canonical Monte Carlo simulations (GCMC). Of particular interest is the large difference in the adsorption rates of n-hexane, p-xylene and acetone observed for these zeosils at 25, 75 and 150°C. As expected, in most cases, a decrease in the adsorption capacity is observed with increasing the molar volume of the used probe molecule and the temperature. An exception is observed for the pure silica CHA-type zeolite due to its small pore size which prevents molecules from entering its porosity. However, at higher temperature, the window size widens slightly and allows n-hexane and acetone, which have kinetic diameter close to the pore opening, to enter easily in chabazite. As a result, for this zeosil, an increase in the adsorption capacity compared to that obtained at 25°C is observed. All these zeosils are promising for technological uses in car exhaust gas decontamination.
ISSN:1387-1811
1873-3093
DOI:10.1016/j.micromeso.2013.02.009