Regioselective C(sp3)-H borylation via a diarylboryl anion surrogate in sp2-sp3 diboranes(5).
Xiaofeng Mao, Jie Zhang, Zuowei Xie
Abstract
Open AccessTransition-metal-free C-H functionalization is a long-standing goal in synthetic chemistry. While a few main-group species have shown promise in C(sp2)-H activation through insertion or nucleophilic aromatic substitution (SNAr) pathways, C(sp3)-H functionalization remains underdeveloped due to the intrinsic inertness of saturated carbon centers and the insufficient reactivity of reported main-group species. Herein, we report regioselective C(sp3)-H borylation in sp2-sp3 diboranes(5), mediated by a highly reactive B(o-tolyl)2 - surrogate. It selectively inserts into α-C(sp3)-H bonds of alkyl groups to generate a family of anionic 1,1-diborylalkyl species. The resulting anions are readily converted to neutral gem-diborylalkanes by using TMSOTf. In substrates lacking α-C(sp3)-H bonds, β-C(sp3)-H activation becomes operative, producing organic salts and olefins. Competitive experiments reveal a clear preference for α- over β-C(sp3)-H activation. DFT calculations support a concerted insertion pathway and explain the preference for α- over β- and ortho-C-H activation. This study showcases the potential of reactive diarylboryl anion surrogates as powerful reagents for achieving regioselective C(sp3)-H borylation and expands the synthetic landscape of main-group-element-mediated C-H activation.