Abstract
The highly efficient and selective photocatalytic oxidation of benzyl alcohol and its derivatives substituted with –OCH 3, –CH 3, –C(CH 3) 3, –Cl, –CF 3 and –NO 2 into corresponding aldehydes has been successfully carried out on TiO 2 in the presence of O 2 under visible light irradiation. The photocatalytic activity for the formation of the aldehyde was evaluated by a pseudo-first-order reaction, and it was found that the activity is enhanced by phenyl-ring substitution with the electron-releasing groups (–OCH 3, –CH 3, –C(CH 3) 3) and the electron-withdrawing groups (–Cl, –CF 3 and –NO 2). The effects of the substituents and their orientation on the photocatalytic performance of selective oxidation reaction are discussed here. It was shown that the photocatalytic activities are influenced not only by the oxidative potentials of the reactants but also by the stability of the resonant structures of the benzylic alcohol radicals formed by oxidation with a hole, leading to further reactions to form corresponding aldehydes.
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