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Computational Studies of Molecular Hydrogen Binding Affinities: the Role of Dispersion Forces, Electrostatics, and Orbital Interactions

Overview
Journal Phys Chem Chem Phys
Publisher Royal Society of Chemistry
Specialties Biophysics
Chemistry
Date 2006 Apr 25
PMID 16633617
Citations 24
Authors
Rohini C Lochan
Martin Head-Gordon
Affiliations
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Abstract

Intermolecular interactions between H2 and ligands, metals, and metal-ligand complexes determine the binding affinities of potential hydrogen storage materials (HSM), and thus their extent of potential for practical use. A brief survey of current activity on HSM is given. The key issue of binding strengths is examined from a basic perspective by surveying the distinct classes of interactions (dispersion, electrostatics, orbital interactions) in first a general way, and then in the context of calculated binding affinities for a range of model systems.

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