Iron Phosphine Catalyzed Cross-Coupling of Tetraorganoborates and Related Group 13 Nucleophiles with Alkyl Halides

Iron phosphine complexes prove to be good precatalysts for the cross-coupling of alkyl, benzyl, and allyl halides with not only aryl triorganoborate salts but also related aluminum-, gallium-, indium-, and thallium-based nucleophiles. Mechanistic studies revealed that while Fe(I) can be accessed on...

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Veröffentlicht in:	Organometallics 2014-10, Vol.33 (20), p.5767-5780
Hauptverfasser:	Bedford, Robin B, Brenner, Peter B, Carter, Emma, Clifton, Jamie, Cogswell, Paul M, Gower, Nicholas J, Haddow, Mairi F, Harvey, Jeremy N, Kehl, Jeffrey A, Murphy, Damien M, Neeve, Emily C, Neidig, Michael L, Nunn, Joshua, Snyder, Benjamin E. R, Taylor, Joseph
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container_title	Organometallics
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creator	Bedford, Robin B Brenner, Peter B Carter, Emma Clifton, Jamie Cogswell, Paul M Gower, Nicholas J Haddow, Mairi F Harvey, Jeremy N Kehl, Jeffrey A Murphy, Damien M Neeve, Emily C Neidig, Michael L Nunn, Joshua Snyder, Benjamin E. R Taylor, Joseph
description	Iron phosphine complexes prove to be good precatalysts for the cross-coupling of alkyl, benzyl, and allyl halides with not only aryl triorganoborate salts but also related aluminum-, gallium-, indium-, and thallium-based nucleophiles. Mechanistic studies revealed that while Fe(I) can be accessed on catalytically relevant time scales, lower average oxidation states are not formed fast enough to be relevant to catalysis. EPR spectroscopic studies reveal the presence of bis(diphosphine)iron(I) complexes in representative catalytic reactions and related processes with a range of group 13 nucleophiles. Isolated examples were studied by Mössbauer spectroscopy and single-crystal X-ray structural analysis, while the electronic structure was probed by dispersion-corrected B3LYP DFT calculations. An EPR study on an iron system with a bulky diphosphine ligand revealed the presence of an S = 1/2 species consistent with the formation of a mono(diphosphine)iron(I) species with inequivalent phosphine donor environments. DFT analysis of model complexes allowed us to rule out a T-shaped Fe(I) structure, as this is predicted to be high spin.
doi_str_mv	10.1021/om500518r
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EPR spectroscopic studies reveal the presence of bis(diphosphine)iron(I) complexes in representative catalytic reactions and related processes with a range of group 13 nucleophiles. Isolated examples were studied by Mössbauer spectroscopy and single-crystal X-ray structural analysis, while the electronic structure was probed by dispersion-corrected B3LYP DFT calculations. An EPR study on an iron system with a bulky diphosphine ligand revealed the presence of an S = 1/2 species consistent with the formation of a mono(diphosphine)iron(I) species with inequivalent phosphine donor environments. DFT analysis of model complexes allowed us to rule out a T-shaped Fe(I) structure, as this is predicted to be high spin.</abstract><pub>American Chemical Society</pub><doi>10.1021/om500518r</doi><tpages>14</tpages></addata></record>
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title	Iron Phosphine Catalyzed Cross-Coupling of Tetraorganoborates and Related Group 13 Nucleophiles with Alkyl Halides
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