Abstract
The first excited-state proton transfer (ESPT) in 7AI-H2 O complex and its derivatives, in which the hydrogen atom at the C2 position in pyrrole ring was replaced by halogen atom X (X = F, Cl, Br), were studied at the TD-M06-2X/6-31 + G(d, p) level. The double proton transfer took place in a concerted but asynchronous protolysis pathway. The vibrational-mode selectivity of excited-state double proton transfer in the model system was confirmed. The specific vibrational-mode could shorten the reaction path and accelerate the reaction rate. The substituent effects on the excited-state proton transfer process were discussed. When the H atom at C2 position in 7AI-H2 O complex was replaced by halogen atom, some geometrical parameters changed obviously, the barrier height of ESDPT reduced, and the asynchronicity of proton transfer enlarged. The above changes correlated with the Pauling electronegativity of halogen atom.
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