Liquid phase calorimetry and adsorption analyses of zeolite beta acidity

Liquid phase calorimetry and adsorption analyses of zeolite beta acidity

Zeolite beta acidity, activated at 550 degrees C, was characterized by calorimetric and adsorption studies of pyridine in cyclohexane (Cal-Ad). Two different acid sites were found: n(1) = 0.1612 mmol g(-1) with DeltaH(1) = -83.6 kJ mol(-1); and n(2) = 0.3820 mmol g(-1) with DeltaH(2) = -62.8 kJ mol(...

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Bibliographic Details
Published in:Physical chemistry chemical physics : PCCP Vol. 10; no. 11; p. 1584
Main Authors: Lemos de Macedo, Julio, Ferreira Ghesti, Grace, Alves Dias, José, Cláudia Loureiro Dias, Sílvia
Format: Journal Article
Language:English
Published: England 01-01-2008
Subjects:
Adsorption
Aluminum - chemistry
Calorimetry - methods
Cyclohexanes - chemistry
Gases
Hydrogen-Ion Concentration
Models, Chemical
Pyridines - chemistry
Spectroscopy, Fourier Transform Infrared - methods
Thermodynamics
Zeolites - analysis
Zeolites - chemistry
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Summary:Zeolite beta acidity, activated at 550 degrees C, was characterized by calorimetric and adsorption studies of pyridine in cyclohexane (Cal-Ad). Two different acid sites were found: n(1) = 0.1612 mmol g(-1) with DeltaH(1) = -83.6 kJ mol(-1); and n(2) = 0.3820 mmol g(-1) with DeltaH(2) = -62.8 kJ mol(-1). Step calcinations followed by FTIR indicated n(1) as Lewis sites and n(2) as weak Brønsted sites. When activated at 450 degrees C, zeolite beta showed three different sites: n(1) = 0.0467 mmol g(-1) with DeltaH(1) = -227.3 kJ mol(-1); n(2) = 0.1163 mmol g(-1) with DeltaH(2) = -93.3 kJ mol(-1); and n(3) = 0.3322 mmol g(-1) with DeltaH(3) = -80.4 kJ mol(-1). Sites n(1) and n(2) were assigned as Brønsted centers, while n(3) as a combination of Brønsted and Lewis sites. These results suggest that the zeolite beta strongest Brønsted sites are converted to Lewis sites at 550 degrees C. These Lewis sites are not only related to extra-framework Al species, but also to aluminium atoms partially bonded to the zeolite framework, as evidenced by infrared bands at 3777 and 875 cm(-1). FTIR and thermogravimetric analyses of gas phase adsorbed pyridine were also used to investigate the materials acidity and a good agreement was found with Cal-Ad data. The results showed that the Cal-Ad method offers a more detailed description of the zeolite surface acidity by providing thermodynamic parameters not easily obtained by other techniques. A linear relationship between enthalpy and entropy values for several zeolites (ZSM-5, TS-1, MOR, Y and BEA) is also reported.
ISSN:1463-9076
DOI:10.1039/b715142j