Rh V ‐Nitrenoid as a Key Intermediate in Rh III ‐Catalyzed Heterocyclization by CH Activation: A Computational Perspective on the Cycloaddition of Benzamide and Diazo Compounds

A mechanistic study of the substituent‐dependent ring formations in Rh III ‐catalyzed CH activation/cycloaddition of benzamide and diazo compounds was carried out by using DFT calculations. The results indicated that the decomposition of the diazo is facilitated upon the formation of the five‐membered rhodacycle, in which the Rh III center is more electrophilic. The insertion of carbenoid into RhC(phenyl) bond occurs readily and forms a 6‐membered rhodacycle, however, the following CN bond formation is difficult both kinetically and thermodynamically by reductive elimination from the Rh III species. Instead, the Rh V ‐nitrenoid intermediate could be formed by migration of the pivalate from N to Rh, which undergoes the heterocyclization much more easily and complementary ring‐formations could be modulated by the nature of the substituent at the α‐carbon. When a vinyl is attached, the stepwise 1,3‐allylic migration occurs prior to the pivalate migration and the 8‐membered ring product will be formed. On the other hand, the pivalate migration becomes more favorable for the phenyl‐contained intermediate because of the difficult 1,3‐allylic migration accompanied by dearomatization, thus the 5‐membered ring product was formed selectively.