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Stoichiometric adsorption complexes in [B]- and [Fe]-ZSM-5 zeolites

The adsorption of ammonia, 2-propanamine, and 2-propanol on H-[B]-ZSM-5 and H-[Fe]-ZSM-5 has been examined using temperature-programmed desorption (TPD) and thermogravimetric analysis (TGA) to investigate the effect of the incorporation of trivalent ions into the zeolite framework. For each of the a...

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Published in:	Journal of catalysis 1989, Vol.116 (1), p.252-262
Main Authors:	Kofke, T.J.Gricus, Gorte, R.J., Kokotailo, G.T.
Format:	Article
Language:	English
Subjects:	Chemistry Exact sciences and technology General and physical chemistry Solid-gas interface Surface physical chemistry
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container_title	Journal of catalysis
container_volume	116
creator	Kofke, T.J.Gricus Gorte, R.J. Kokotailo, G.T.
description	The adsorption of ammonia, 2-propanamine, and 2-propanol on H-[B]-ZSM-5 and H-[Fe]-ZSM-5 has been examined using temperature-programmed desorption (TPD) and thermogravimetric analysis (TGA) to investigate the effect of the incorporation of trivalent ions into the zeolite framework. For each of the adsorbates on H-[Fe]-ZSM-5, clearly defined adsorption complexes corresponding to one molecule/Fe atom could be identified. An adsorption complex with a stoichiometry of one molecule/B atom could also be observed for 2-propanamine on H-[B]-ZSM-5 but complexes were less clearly defined for ammonia and 2-propanol. The reactivity of these 1: 1 complexes indicates that the acid sites formed by the hydroxyls associated with B incorporation are much weaker than those associated with Fe or Al. We also examined a sample of ZSM-5 which had extraframework Fe using 2-propanamine adsorption and found that there was negligible adsorption due to these sites. These results indicate that TPDTGA measurements of selected adsorbates are valuable in characterizing the materials created by the incorporation of trivalent cations into the zeolite framework.
doi_str_mv	10.1016/0021-9517(89)90090-0
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For each of the adsorbates on H-[Fe]-ZSM-5, clearly defined adsorption complexes corresponding to one molecule/Fe atom could be identified. An adsorption complex with a stoichiometry of one molecule/B atom could also be observed for 2-propanamine on H-[B]-ZSM-5 but complexes were less clearly defined for ammonia and 2-propanol. The reactivity of these 1: 1 complexes indicates that the acid sites formed by the hydroxyls associated with B incorporation are much weaker than those associated with Fe or Al. We also examined a sample of ZSM-5 which had extraframework Fe using 2-propanamine adsorption and found that there was negligible adsorption due to these sites. 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For each of the adsorbates on H-[Fe]-ZSM-5, clearly defined adsorption complexes corresponding to one molecule/Fe atom could be identified. An adsorption complex with a stoichiometry of one molecule/B atom could also be observed for 2-propanamine on H-[B]-ZSM-5 but complexes were less clearly defined for ammonia and 2-propanol. The reactivity of these 1: 1 complexes indicates that the acid sites formed by the hydroxyls associated with B incorporation are much weaker than those associated with Fe or Al. We also examined a sample of ZSM-5 which had extraframework Fe using 2-propanamine adsorption and found that there was negligible adsorption due to these sites. 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subjects	Chemistry Exact sciences and technology General and physical chemistry Solid-gas interface Surface physical chemistry
title	Stoichiometric adsorption complexes in [B]- and [Fe]-ZSM-5 zeolites
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