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Unravelling a bench-stable zinc-amide compound as highly active multitasking catalyst for radical-mediated selective alk(en)ylation of unactivated carbocycles under mild conditions

Sangita Sahoo, Subarna Manna, Arnab Rit

2024Chemical Science16 citationsDOIOpen Access PDF

Abstract

an underdeveloped radical-mediated borrowing hydrogen protocol (an aldehyde is generated from an alcohol, and subsequent condensation with indene/fluorene provides the corresponding alkenylated products) established based on a range of control experiments, works effortlessly under mild conditions using a low catalyst loading. Notably, this approach affords remarkable selectivity towards alkylated or alkenylated products with a high level of functional group tolerance and chemoselectivity. Crucially, the catalytic activity of these Zn compounds can be attributed to their hydrogen atom transfer (HAT) capability, while their selectivity towards different products can be understood in terms of employed reaction conditions. Lastly, the synthetic utility of obtained products was showcased by their late-stage functionalization to access unsymmetrical 9,9-disubstituted fluorenes, which are potentially useful for various optoelectronic applications.

Topics & Concepts

Human multitaskingAmideChemistryCatalysisLigand (biochemistry)ZincCombinatorial chemistryOrganic chemistryReceptorBiochemistryPsychologyCognitive psychologyCatalytic C–H Functionalization MethodsAsymmetric Hydrogenation and CatalysisCatalytic Cross-Coupling Reactions
Unravelling a bench-stable zinc-amide compound as highly active multitasking catalyst for radical-mediated selective alk(en)ylation of unactivated carbocycles under mild conditions | Litcius