Theoretical study on Pd(0)-catalyzed remote C(sp3)-H functionalization via 1,5-Pd migration

Abstract

The remote C(sp3)-H activation/functionalization via 1,5-Pd migration involved in the Pd(0)-catalyzed reaction of (8-bromonaphthalen-1-yl)trimethylsilane (S1) and N-tosylhydrazone (S2) was theoretically investigated with the aid of the density functional theory calculations. The role of the Lewis base LiOtBu was revealed by forming a Pd-O bond to participate in the reaction. The remote C(sp3)-H activation was found to be accomplished by concerted Pd-C(sp2)/C(sp3)-H σ-bond metathesis rather than by stepwise C(sp3)-H oxidative addition/C(sp2)-H reductive elimination. Additionally, the mechanism of generating 2-diazopropane from N-tosylhydrazone (S2) was investigated. This study would be informative and benefit to designing novel relevant transition-metal-catalyzed remote C-H activation/functionalization reactions.