Quantum Chemical Characterization of Factors Affecting the Neutral and Radical-Cation Newman-Kwart Reactions

Abstract: Details of the electronic and geometric structures of stationary points along the reaction coordinate of the Newman Kwart rearrangement, which transforms an O-arylthiocarbamate to an S-arylcarbamothioate, are examined using quantum chemical methods for a large number of compounds considering both the thermal reactions of uncharged substrates as well as the corresponding reactions of radical cation substrates generated under photoredox conditions. The uncharged mechanism, which has intrinsically high 298 K free… Show more

“…To further accelerate the rearrangement in the radical-cation reaction, modifications of the amine portion of the thiocarbamate group show promise, and theory predicts that replacing N , N -dimethylamino with N -methyl- N -2-oxazolylamino should lead to rate increases of up to 100-fold for less reactive substrates …”

Quantum Chemical Characterization of Factors Affecting the Neutral and Radical-Cation Newman–Kwart Reactions

“…To further accelerate the rearrangement in the radical-cation reaction, modifications of the amine portion of the thiocarbamate group show promise, and theory predicts that replacing N , N -dimethylamino with N -methyl- N -2-oxazolylamino should lead to rate increases of up to 100-fold for less reactive substrates …”

Quantum Chemical Characterization of Factors Affecting the Neutral and Radical-Cation Newman–Kwart Reactions