Mechanism of Visible-Light Photooxidative Demethylation of Toluidine Blue O.

Experiments and theoretical calculations by density functional theory (DFT) have been carried out to examine a self-sensitized type I photooxidation of toluidine blue O (TBO). This study attempts to build a connection between visible-light photolysis and demethylation processes of methylamine compounds, such as TBO. We show that controlled photoinduced mono- and double-demethylation of TBO can be achieved. The kinetics for the appearance rate of the mono-demethylated TBO and the double-demethylated TBO were found to fit pseudo-first-order kinetics. DFT calculations have been used to examine the demethylation of TBO and included N, N-dimethylaniline as a model compound for TBO. The results show an oxygen-dependent demethylation process. The mechanism for the sequential methyl loss is proposed to be due to H or e/H transfer to TBO* followed by a reaction of TBO with O, yielding a C-peroxyTBO intermediate. Instead of aminyl radical peroxyl formation, i.e., N-peroxyTBO, the C-centered peroxyTBO is favored, that upon dimerization (Russell mechanism) leads to dissociation of formaldehyde from the methylamine site.