Publication | Closed Access
Formation and reactivity of new Nicholas–Ferrier pyranosidic cations: novel access to oxepanes via a 1,6-hydride shift/cyclization sequence
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Citations
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References
2010
Year
Cross-coupling ReactionBioorganic ChemistryEngineeringBiochemistryRemarkable ReactivityNatural SciencesNovel Access1,6-Hydride Shift/cyclization SequenceOrganic ChemistryOrganometallic CatalysisCatalysisSynthetic ChemistryChemistryHexacarbonyl PropargylStereoselective SynthesisAsymmetric CatalysisPyranosidic Allylic
Pyranosidic allylic (Ferrier) cations that share dicobalt hexacarbonyl propargyl (Nicholas) stabilization at C-1 display a remarkable reactivity leading to either substituted oxepanes or 3-C-branched pyranosides, depending on the substituent at O-6.
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