Abstract
The collisions of size- and energy-selected H +(H 2O) n ( n=2–11) with D 2O have been investigated using guided-ion beam mass spectrometry. The H/D exchange reaction was observed by incorporation of D 2O into H +(H 2O) n . The measured rate constants of this reaction are found to depend strongly on the cluster size; the rate constants drastically decrease up to n=6, and then level off for 6⩽ n⩽11. This size dependence is discussed in terms of the structure of protonated water clusters: the core H 3O + and H 5O 2 + ions, so-called Eigen and Zundel cations respectively, are completely surrounded by the first water layer and cause the rate constants for 6⩽ n⩽11 essentially insensitive to n.
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