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Formal Aromatic C−H Insertion for Stereoselective Isoquinolinone Synthesis and Studies on Mechanistic Insights into the C−C Bond Formation
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2009
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Chemical EngineeringCross-coupling ReactionEngineeringC−c Bond FormationElectrophilic Aromatic SubstitutionHeterocyclicOrganic ChemistryMechanistic InsightsCatalysisNew MethodologyChemistryStereoselective Isoquinolinone SynthesisHeterocycle ChemistryStereoselective SynthesisOrganometallic CatalysisVarious IsoquinolinonesSynthetic ChemistryBiomolecular Engineering
Formal aromatic C-H insertion of rhodium(II) carbenoid was intensively investigated to develop a new methodology and probe its mechanism. Contrasting with the previously proposed direct C-H insertion, the mechanism was revealed to be electrophilic aromatic substitution, which was supported by substituent effects on the aromatic ring and a secondary deuterium kinetic isotope effect. Various isoquinolinones were synthesized intramolecularly via six-membered ring formation with high regio- and diastereoselectivity, while averting the common Buchner-type reaction. Intermolecularly, dirhodium catalyzed formal aromatic C-H insertion on electron-rich aromatics was also achieved.