A review of the computational studies of proton- and metal-exchanged chabazites as media for molecular hydrogen storage performed with the CRYSTAL code
Articolo
Data di Pubblicazione:
2008
Abstract:
In the present paper, a review of our previously published results about the ab initio modeling on the H2H2 interaction with the polarizing centers of proton- and metal-exchanged chabazites performed with the periodic ab initio CRYSTAL code is reported. The paper highlights how ab initio modeling allows to: (i) understand the H2H2 interaction with solids at an atomistic level; (ii) infer the potential of zeolites as hydrogen storage materials; (iii) give insights in the design of new H2H2 storage materials for applications. The calculations were performed within the periodic approach using the B3LYP functional with all-electron double zeta polarized Gaussian type basis sets. New data are reported using a richer basis set for both zeolite and H2H2, which ensures a better description of the intermolecular interaction components. In all the considered systems, H2H2 mainly interacts side-on with zeolites’ charge balancer cations. Geometrical and energetic features were also refined at MP2 level adopting clusters cut out from the chabazite framework in order to gauge the dispersive contribution to the interaction energy, not accounted for by the B3LYP functional. Computed BSSE-free binding energies (BEc)(BEc) showed that H2H2 interacts poorly with the protons (H+)(H+) of the Brønsted sites View the MathML source(BEc∼5kJ/mol), whereas the interaction with Li+Li+, Na+Na+ and K+K+ in metal-exchanged chabazites was stronger, particularly for Li+Li+ located in small framework rings View the MathML source(BEc∼12kJ/mol). When divalent Mg2+Mg2+ cation is used as a charge balancer, the BEcBEc becomes View the MathML source∼18kJ/mol, showing that the interplay between cationic polarization and its spatial position in the zeolite framework is crucial in determining the sorption capacity of the material.
Tipologia CRIS:
03A-Articolo su Rivista
Keywords:
hydrogen storage; periodic B3LYP; zeolites
Elenco autori:
F. J. TORRES; P. UGLIENGO; B. CIVALLERI; A. TERENTYEV; C. PISANI
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