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arxiv: 1502.01408 · v1 · pith:BO5XZTQAnew · submitted 2015-02-05 · ⚛️ physics.atm-clus · physics.chem-ph

Electric dipole moments of nanosolvated acid molecules in water clusters

classification ⚛️ physics.atm-clus physics.chem-ph
keywords dipolemomentwaterclusterselectricenhancedmoleculesmoments
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The electric dipole moments of $(H_{2}O)_{n}DCl$ ($n=3-9$) clusters have been measured by the beam deflection method. Reflecting the (dynamical) charge distribution within the system, the dipole moment contributes information about the microscopic structure of nanoscale solvation. The addition of a DCl molecule to a water cluster results in a strongly enhanced susceptibility. There is evidence for a noticeable rise in the dipole moment occurring at $n\approx5-6$. This size is consistent with predictions for the onset of ionic dissociation. Additionally, a molecular dynamics model suggests that even with a nominally bound impurity an enhanced dipole moment can arise due to the thermal and zero point motion of the proton and the water molecules. The experimental measurements and the calculations draw attention to the importance of fluctuations in defining the polarity of water-based nanoclusters, and generally to the essential role played by motional effects in determining the response of fluxional nanoscale systems under realistic conditions.

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