Anna Hedström scite author profile

The mechanism of the iron‐catalyzed cross‐coupling of aryl electrophiles with alkyl Grignard reagents is studied by a combination of GC monitoring, Hammett competition experiments, and DFT calculations. The reaction follows a pathway where an FeI complex, formed in situ, reacts in a rate‐limiting oxidative addition with the aryl electrophile. A rapid thermoneutral transmetalation from a Grignard reagent occurs either before or after the oxidative addition, with little to differentiate between the two pathways. A reductive elimination of the resulting alkyl aryl FeIII complex closes the catalytic cycle. Iron in lower oxidation states can act as a competent precatalyst by oxidation into the FeI–FeIII cycle. FeII complexes can give FeI catalysts through reductive elimination of a bimetallic complex. Added ligands, dilution, and powerful aryl electrophiles all serve to increase the stability of the active catalyst, presumably by counteracting oligomerization of low‐valent iron.

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On the Radical Nature of Iron‐Catalyzed Cross‐Coupling Reactions

Hedström

Izakian

Vreto

et al. 2015

Chemistry A European J

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The radical nature of iron-catalyzed cross-coupling between Grignard reagents and alkyl halides has been studied by using a combination of competitive kinetic experiments and DFT calculations. In contrast to the corresponding coupling with aryl halides, which commences through a classical two-electron oxidative addition/reductive elimination sequence, the presented data suggest that alkyl halides react through an atom-transfer-initiated radical pathway. Furthermore, a general iodine-based quenching methodology was developed to enable the determination of highly accurate concentrations of Grignard reagents, a capability that facilitates and increases the information output of kinetic investigations based on these substrates.

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On the oxidation state of iron in iron-mediated C–C couplings

Hedström

Lindstedt

Norrby

2013

Journal of Organometallic Chemistry

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Low Temperature Studies of Iron‐Catalyzed Cross‐Coupling of Alkyl Grignard Reagents with Aryl Electrophiles

et al. 2012

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Abstract:The title reaction has been studied under low temperature conditions. Coupling with active substrates can be done even at dry ice temperature. Initial rate studies at À25 8C indicate that high concentrations of any reagent can lead to either complete or partial catalyst deactivation. Under strongly reducing conditions, iron seems to form less active complexes that only slowly re-enter the catalytic cycle, possibly through bimolecular coupling of iron(II) complexes. Computational studies support the experimental observations, and indicate that oxidation states below + I cannot be reached by reductive elimination.

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Iron‐Catalyzed Coupling of Aryl Grignard Reagents with Alkyl Halides: A Competitive Hammett Study

Hedström

Bollmann

Bravidor

et al. 2011

Chemistry A European J

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Anna Hedström

Mechanistic Investigation of Iron‐Catalyzed Coupling Reactions

On the Radical Nature of Iron‐Catalyzed Cross‐Coupling Reactions

On the oxidation state of iron in iron-mediated C–C couplings

Low Temperature Studies of Iron‐Catalyzed Cross‐Coupling of Alkyl Grignard Reagents with Aryl Electrophiles

Iron‐Catalyzed Coupling of Aryl Grignard Reagents with Alkyl Halides: A Competitive Hammett Study

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