Predicting Partial Atomic Charges in Siliceous Zeolites

Partial atomic charge, which determines the magnitude of the Coulombic non-bonding interaction, represents acritical parameter in molecular mechanics simulations. Partial charges may also be used as a measure of physicalproperties of the system, ie. covalency, acidic/catalytic sites, etc. A range of methods, both empirical and abinitio, exist for calculating partial charges in a given solid, and several of them are compared here for siliceous(pure silica) zeolites. The relationships between structure and the predicted partial charge are examined. Thepredicted partial charges from different methods are also compared with related experimental observations,showing that a few of the methods offer some guidance towards identifying the T-sites most likely to undergosubstitution or for proton localization in acidic framework forms. Finally, we show that assigning unique cal-culated charges to crystallographically unique framework atoms makes an appreciable difference in simulatingpredicting N2and O2adsorption with common dispersion-repulsion parameterizations.

Publication year:2019

Keywords:Zeoalite, Partial charge, Molecular mechanics, DFT, T-atom substitution, Acid catalysis

BOF-keylabel:yes

IOF-keylabel:yes

BOF-publication weight:2

CSS-citation score:1

Authors:International

Authors from:Higher Education

Accessibility:Open