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Matches in UGent Biblio for { <https://biblio.ugent.be/publication/2082545#aggregation> ?p ?o. }

• aggregation classification "A1".
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• aggregation date "2012".
• aggregation format "application/pdf".
• aggregation hasFormat 2082545.bibtex.
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• aggregation isPartOf urn:issn:1932-7447.
• aggregation language "eng".
• aggregation rights "I have transferred the copyright for this publication to the publisher".
• aggregation subject "Chemistry".
• aggregation title "Efficient approach for the computational study of alcohol and nitrile adsorption in H-ZSM-5".
• aggregation abstract "Since many industrially important processes start with the adsorption of guest molecules inside the pores of an acidic zeolite catalyst, a proper estimate of the adsorption enthalpy is of paramount importance. In this contribution, we report ab initio calculations on the adsorption of water, alcohols, and nitriles at the bridging Bronsted sites of H-ZSM-5, using both cluster and periodic models to account for the zeolite environment. Stabilization of the adsorption complexes results from hydrogen bonding between the guest molecule and the framework, as well as from embedding, i.e., van der Waals interactions with the pore walls. Large-cluster calculations with different DFT methods, in particular B3LYP(-D), PBE(-D), M062X(-D), and omega B97X-D, are tested for their ability to reproduce the experimental heats of adsorption available in the literature (J. Phys. Chem. B 1997, 101, 3811-3817). A proper account of dispersion interactions is found to be crucial to describe the experimental trend across a series of adsorbates of increasing size, i.e., an increase in adsorption enthalpy by 10-15 kJ/mol for each additional carbon atom. The extended-cluster model is shown to offer an attractive alternative to periodic simulations on the entire H-ZSM-5 unit cell, resulting in virtually identical final adsorption enthalpies. Comparing calculated stretch frequencies of the zeolite acid sites and the adsorbate functional groups with experimental IR data additionally confirms that the cluster approach provides an appropriate representation of the adsorption complexes.".
• aggregation authorList BK722804.
• aggregation endPage "5508".
• aggregation issue "9".
• aggregation startPage "5499".
• aggregation volume "116".
• aggregation aggregates 2082552.
• aggregation aggregates 2972538.
• aggregation isDescribedBy 2082545.
• aggregation similarTo jp2123828.
• aggregation similarTo LU-2082545.