Abstract
Abstract The addition of the acetyl radical to benzene, aniline, trifluoromethylbenzene and naphthalene has been investigated using DFT calculations. Addition to benzene is calculated to have an energy barrier of 63.6 kJ mol−1 at the BHandHLYP/6-311G(d,p)+ZPE level of theory. This reaction is associated with simultaneous SOMO→π∗ and π→SOMO interactions with the latter interaction dominating, suggesting that acetyl reacts predominantly as an electrophilic radical in its interaction with benzene. Addition to the ortho and para positions of aniline is calculated to be slightly less favourable, while attack at the meta position is predicted to be unaffected in relation to the chemistry involving benzene. Inclusion of the electron-withdrawing substituent, trifluoromethyl, is predicted to accelerate reactions slightly at the ortho and para positions, while attack at the C1 position of naphthalene is calculated to involve a barrier of 50.3 kJ mol−1 (BHandHLYP/6-311G(d,p)+ZPE).
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