Cross-Coupling of Cobalt-Complexed Propargyl Radicals: Metal Core- and α- and γ-Aryl-Induced Chemo- and Diastereoselectivity

Chemo- and diastereoselectivities of homo- and cross-coupling reactions of Co2(CO)6-complexed propargyl radicals were studied. The alternative radical generation methodsreduction of respective cations with Zn or Cp2Co and one-step mediation with THF or Tf2Owere employed. In the case of cobalt comp...

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Veröffentlicht in:	Organometallics 2007-06, Vol.26 (13), p.3173-3182
Hauptverfasser:	Melikyan, Gagik G, Floruti, Arthur, Devletyan, Lucin, Toure, Pogban, Dean, Norman, Carlson, Louis
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creator	Melikyan, Gagik G Floruti, Arthur Devletyan, Lucin Toure, Pogban Dean, Norman Carlson, Louis
description	Chemo- and diastereoselectivities of homo- and cross-coupling reactions of Co2(CO)6-complexed propargyl radicals were studied. The alternative radical generation methodsreduction of respective cations with Zn or Cp2Co and one-step mediation with THF or Tf2Owere employed. In the case of cobalt complexes with terminal triple bonds, the product distribution is nearly statistical and dependent upon the reducing agent with the concentration of the cross-coupling product 8 falling in the range 38−49%. The diastereoselectivity varied widely (de 40−92%) with the preponderant formation of d,l-diastereoisomers 7−9 in both homo- and cross-coupling reactions. The highest level of stereocontrol was achieved in THF- and Tf2O-mediated reactions (de up to 92%), while the reductions with Cp2Co were inferior in both homo- and cross-coupling processes (de 40−56%). An introduction of a γ-aromatic ring revealed a kinetic differentiation at the radical generation step that, in turn, resulted in a nonstatistical distribution of homo- and cross-dimers. The d,l-diastereoselectivity is found to be systematically lower for homo-dimer 16, containing a γ-phenyl substituent at the triple bond (de: 16 14−64%; 7 52−84%). The observed chemoselectivities are accounted for on the basis of the computed values of charge distribution in the requisite cations.
doi_str_mv	10.1021/om070180m
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The d,l-diastereoselectivity is found to be systematically lower for homo-dimer 16, containing a γ-phenyl substituent at the triple bond (de: 16 14−64%; 7 52−84%). The observed chemoselectivities are accounted for on the basis of the computed values of charge distribution in the requisite cations.</abstract><pub>American Chemical Society</pub><doi>10.1021/om070180m</doi><tpages>10</tpages></addata></record>
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title	Cross-Coupling of Cobalt-Complexed Propargyl Radicals: Metal Core- and α- and γ-Aryl-Induced Chemo- and Diastereoselectivity
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