期刊
PHYSICAL CHEMISTRY CHEMICAL PHYSICS
卷 9, 期 43, 页码 5752-5760出版社
ROYAL SOC CHEMISTRY
DOI: 10.1039/b709752b
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We describe molecular orbital theory and ab initio molecular dynamics studies of acid/ base equilibria of clusters AH: ( H2O)(n) double left right arrow A(-): H+(H2O)(n) in low hydration regime ( n = 1-4), where AH is a model of perfluorinated sulfonic acids, RSO3H ( R = CF3CF2), encountered in polymer electrolyte membranes for fuel cells. Free energy calculations on the neutral and ion pair structures for n = 3 indicate that the two configurations are close in energy and are accessible in the fluctuation dynamics of proton transport. For n = 1, 2 the only relevant configuration is the neutral form. This was verified through ab initio metadynamics simulations. These findings suggest that bases are directly involved in the proton transport at low, n = 3, hydration level, but not at lower hydration levels, n <= 2. In addition, the gas phase proton affinity of the model sulfonic acid H was found to be comparable to the proton affinity of water. The free energy pro. le for proton exchange between a protonated acid-water cluster configuration and a neutral acid-hydronium ion cluster configuration showed that such configurations are nearly isoenergetic. Thus, protonated acids can also play a role in proton transport under low hydration conditions and under high concentration of protons.
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