2004
DOI: 10.1080/01442350412331316124
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Solid water clusters in the size range of tens–thousands of H2O: a combined computational/spectroscopic outlook

Abstract: 2004) Solid water clusters in the size range of tens-thousands of H 2 O: a combined computational/spectroscopic outlook, A joint computational and experimental effort was directed towards the understanding of large solid water clusters. The computations included structure optimizations and calculations of OH stretch spectra for select sizes in the range n ¼ 20-931. The measurements focused predominantly on OH stretch spectroscopy as a function of mean cluster size. FTIR spectra are discussed for the size range… Show more

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Cited by 224 publications
(343 citation statements)
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References 189 publications
(305 reference statements)
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“…It is wellknown that hydrogen-bonded νOH exhibits higher band intensity than non-hydrogen-bonded νOH. 20 Hence, the experimentally observed νOH band intensity increase can only be interpreted as arising from an increase in the degree of hydrogen bonding in the deposited H 2 O film.…”
Section: Resultsmentioning
confidence: 99%
“…It is wellknown that hydrogen-bonded νOH exhibits higher band intensity than non-hydrogen-bonded νOH. 20 Hence, the experimentally observed νOH band intensity increase can only be interpreted as arising from an increase in the degree of hydrogen bonding in the deposited H 2 O film.…”
Section: Resultsmentioning
confidence: 99%
“…In neutral water clusters, the onset of crystallinity occurs somewhere in the size range from 200 to 1000 water molecules 29 , i.e., at much larger cluster sizes than probed here. Smaller water clusters correspond to quasi spherical nanoparticles with a crystal interior and a disordered "reconstructed" surface 30 , while even smaller clusters contain only "surface" water molecules. The reconstruction of the cluster surface may lead to a weakening of the hydrogen bonding network and thus a red shift of the librational band in the present IRMPD spectra compared to the IR spectrum of bulk ice.…”
Section: Manuscriptmentioning
confidence: 99%
“…It has long been recognized that the adsorption properties depend on the structure of the ice surface (6)(7)(8)(9). However, it is still striking to see that many properties of ice surfaces vary greatly even on a prefect ice surface where the oxygen atoms are ordered in a hexagonal lattice (10)(11)(12)(13)). Yet, due to the complexity of the surface structure at the atomic level, our understandings of the activity and adsorption property on the ice surface are still far from consistent and complete.…”
mentioning
confidence: 99%