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W2087144010 abstract "Density functional theory calculations at the B3LYP/6-31+G(d,p) level of theory have been performed to explore proton exchanges between phenols and ammonia or amines, which can be used to account for previous NMR experiments. For the parent phenol−NH3 system, a transition state with a symmetric phenolate−NH4+-like structure, which lies about 35 kcal mol-1 in energy above the hydrogen-bonded complex, has been successfully located. An intrinsic reaction coordinate (IRC) analysis indicates that the proton exchange is a concerted process, which can be roughly divided into four continuous subprocesses. A series of para-substituted phenol−NH3 systems have been considered to investigate the substituent effect. Whereas introduction of an electron-withdrawing group on the phenol appreciably reduces the barrier, an opposite effect is observed for an electron-donating group. Moreover, it has been disclosed that there exists a good linear correlation between the activation barriers and the interaction energies between the phenols and NH3, indicating the important role of proton transfer (or hydrogen bonding) in determining the proton exchange. Also considered are the proton exchanges between phenol and amines and those for some sterically hindered systems. The results show that the phenol tends to exchange hydrogen with the amines, preferably the secondary amines, and that the steric effect is favorable for the proton exchange, which imply that, as the IRC analysis suggested, besides the proton transfer, the flip of the ammonium-like moiety may play a significant role in the course of proton exchange. For all of these systems, we investigated the solvent effects and found that the barrier heights of proton exchange decrease remarkably as compared to those in a vacuum due to the ion pair feature of the transition state. Finally, we explored the phenol radical cation−NH3 system; the barrierless proton transfer and remarkably low barrier (5.2 kcal mol-1) of proton exchange provide further evidence for the importance of proton transfer in the proton exchange." @default.
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W2087144010 date "2006-06-30" @default.
W2087144010 modified "2023-10-10" @default.
W2087144010 title "Proton Exchanges between Phenols and Ammonia or Amines: A Computational Study" @default.
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W2087144010 doi "https://doi.org/10.1021/jp060790k" @default.
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