Correlation of hydrogen bond lengths and angles in liquid water based on Compton scattering

The temperature-dependent hydrogen-bond geometry in liquid water is studied by x-ray Compton scattering using synchrotron radiation combined with density functional theory analysis. Systematic changes, related to the weakening of hydrogen bonding, are observed in the shape of the Compton profile upo...

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Published in:The Journal of chemical physics 2006-08, Vol.125 (8), p.084504-084504
Main Authors: Hakala, M, Nygård, K, Manninen, S, Huotari, S, Buslaps, T, Nilsson, A, Pettersson, L G M, Hämäläinen, K
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description The temperature-dependent hydrogen-bond geometry in liquid water is studied by x-ray Compton scattering using synchrotron radiation combined with density functional theory analysis. Systematic changes, related to the weakening of hydrogen bonding, are observed in the shape of the Compton profile upon increasing the temperature. Using model calculations and published distribution functions of hydrogen-bond geometries obtained from a NMR study we find a significant correlation between the hydrogen-bond length and angle. This imposes a new constraint on the possible local structure distributions in liquid water. In particular, the angular distortions of the short hydrogen bonds are significantly restricted.
doi_str_mv 10.1063/1.2273627
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title Correlation of hydrogen bond lengths and angles in liquid water based on Compton scattering
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