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A Palladium Complex as an Asymmetric π-Lewis Base Catalyst for Activating 1,3-Dienes

Ben‐Xian Xiao, Bo Jiang, Ru‐Jie Yan, Jian‐Xiang Zhu, Ke Xie, Xinyue Gao, Qin Ouyang, Wei Du, Ying‐Chun Chen

2021Journal of the American Chemical Society95 citationsDOI

Abstract

Here we report that palladium(0) complexes can coordinate in a η2 fashion to 1,3-dienes and significantly raise the energy of their highest occupied molecular orbital (HOMO) by donating the electrons from the d-orbitals to the empty antibonding molecular orbitals of double bonds (π*) via back-bonding. Thus, the uncoordinated double bond, as a more reactive partner on the basis of the principle of vinylogy, can directly attack imines, furnishing a formal hydrodienylation reaction enantioselectively. A chemoselective cascade vinylogous addition/allylic alkylation difunctionalization process between 1,3-dienes and imines with a nucleophilic group is also compatible, by trapping in situ formed π-allylpalladium species after initial ene addition. This π-Lewis base catalytic mode, featuring simple η2coordination, vinylogous activation, and compatibility with both conjugated neutral polyenes and electron-deficient polyenes, is elucidated by control experiments and density functional theory (DFT) calculations.

Topics & Concepts

ChemistryAntibonding molecular orbitalNucleophileAllylic rearrangementPalladiumCatalysisDensity functional theoryTsuji–Trost reactionComputational chemistryLewis acids and basesMolecular orbitalStereochemistryAtomic orbitalPhotochemistryMoleculeElectronOrganic chemistryQuantum mechanicsPhysicsAsymmetric Synthesis and CatalysisCatalytic C–H Functionalization MethodsOrganoboron and organosilicon chemistry
A Palladium Complex as an Asymmetric π-Lewis Base Catalyst for Activating 1,3-Dienes | Litcius