Görling A, Bleiziffer P, Vines Solana F, Hieringer W, Gebhardt J (2014)
Publication Language: English
Publication Status: Published
Publication Type: Journal article, Original article
Publication year: 2014
Publisher: Royal Society of Chemistry
Book Volume: 16
Pages Range: 5382-5392
Journal Issue: 11
DOI: 10.1039/c3cp54704c
We investigate the capability of low-coordinated sites on small model clusters to act as active centers for hydrogen storage. A set of small magic clusters with the formula (XY)(6) (X = Mg, Ba, Be, Zn, Cd, Na, Li, B and Y = O, Se, S, F, I, N) and a "drumlike'' hexagonal shape showing a low coordination number of three was screened. Oxide clusters turned out to be the most promising candidates for hydrogen storage. For these ionic compounds we explored the suitability of different van der Waals (vdW) corrections to density-functional calculations by comparing the respective H-2 physisorption profile to highly accurate CCSD(T) (Coupled Cluster Singles Doubles with perturbative Triples) calculations. The Grimme D3 vdW correction in combination with the Perdew-Burke-Ernzerhof exchange-correlation functional was found to be the best approach compared to CCSD(T) hydrogen physisorption profiles and is, therefore, suited to study these and other light metal oxide systems. H-2 adsorption on sites of oxide model clusters is found to meet the adsorption energy criteria for H-2 storage, with bond strengths ranging from 0.15 to 0.21 eV. Energy profiles and estimates of kinetic constants for the H-2 splitting reaction reveal that H-2 is likely to be adsorbed molecularly on sites of (MgO)(6), (BaO)(6), and (BeO)(6) clusters, suggesting a rapid H-2 uptake/release at operating temperatures and moderate pressures. The small mass of beryllium and magnesium makes such systems appealing for meeting the gravimetric criterion for H-2 storage.
APA:
Görling, A., Bleiziffer, P., Vines Solana, F., Hieringer, W., & Gebhardt, J. (2014). Hydrogen storage on metal oxide model clusters using density-functional methods and reliable van der Waals corrections. Physical Chemistry Chemical Physics, 16(11), 5382-5392. https://doi.org/10.1039/c3cp54704c
MLA:
Görling, Andreas, et al. "Hydrogen storage on metal oxide model clusters using density-functional methods and reliable van der Waals corrections." Physical Chemistry Chemical Physics 16.11 (2014): 5382-5392.
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