Bisphosphine‐Ligated Nickel Pre‐catalysts in C(<i>sp</i><sup>2</sup>)–N Cross‐Couplings of Aryl Chlorides: A Comparison of Nickel(I) and Nickel(II)

Lavoie, Christopher M.; McDonald, Robert; Johnson, Erin R.; Stradiotto, Mark

doi:10.1002/adsc.201700672

Cited by 55 publications

(64 citation statements)

References 44 publications

(51 reference statements)

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“…Our results show that Ni‐catalyzed amination, etherification, and esterification of aryl bromides can all be realized across a wide range of substrates without light under conditions that otherwise bear resemblance to the parent photochemical methodologies. To this end, one may wish to re‐evaluate the growing body of literature that invokes energy transfer as the mechanism for catalysis . As we show here, only a small amount of Ni I can initiate self‐sustained Ni I /Ni III thermal catalysis.…”

Section: Resultsmentioning

confidence: 99%

“…This supposition is supported by the observation that a sterically hindered primary amine (cyclohexylamine) could be successfully coupled ( 6 ). Given the evidence for mechanistic substrate dependence in Ni cross‐coupling reactions, the inefficiency of these recalcitrant coupling partners under our light‐free conditions may imply that the extent to which photochemical resuscitation of inactive Ni II complexes contributes to the overall observed reactivity could be similarly substrate dependent. With respect to the aryl bromide, the highest yields were obtained with those possessing electron‐deficient substituents, such as ketone ( 11 ), sulfone ( 12 ), nitrile ( 19 ), and trifluoromethyl ether ( 20 ) functionality.…”

Section: Resultsmentioning

confidence: 99%

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General Paradigm in Photoredox Nickel‐Catalyzed Cross‐Coupling Allows for Light‐Free Access to Reactivity

2020

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Self-sustained Ni I/III cycles are established as ap otentially general paradigm in photoredox Ni-catalyzed carbonheteroatom cross-coupling reactions through as trategy that allows us to recapitulate photoredox-like reactivity in the absence of light across aw ide range of substrates in the amination, etherification, and esterification of aryl bromides, the latter of whichh as remained, hitherto,e lusive under thermal Ni catalysis.M oreover,t he accessibility of esterification in the absence of light is especially notable because previous mechanistic studies on this transformation under photoredox conditions have unanimously invoked energytransfer-mediated pathways.

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

General Paradigm in Photoredox Nickel‐Catalyzed Cross‐Coupling Allows for Light‐Free Access to Reactivity

2020

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“…In 2016 we developed the bulky and modestly electron‐donating PAd‐DalPhos bisphosphine ligand featuring a phosphaadamantane donor fragment, which we envisioned would work well in promoting rate‐limiting C−N reductive elimination within a presumptive Ni 0/II catalytic cycle . This new and modular design strategy has proven effective, with pre‐catalysts incorporating PAd‐DalPhos and related variants enabling the Ni‐catalyzed monoarylation of ammonia, unhindered primary alkylamines, as well as primary amides and lactams, with a diversity of (hetero)aryl (pseudo)halides.…”

Section: Figurementioning

confidence: 99%

PhPAd‐DalPhos: Ligand‐Enabled, Nickel‐Catalyzed Cross‐Coupling of (Hetero)aryl Electrophiles with Bulky Primary Alkylamines

et al. 2019

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The base metal‐catalyzed C−N cross‐coupling of bulky α,α,α‐trisubstituted primary alkylamines with (hetero)aryl electrophiles represents a challenging and under‐developed class of transformations that is of significant potential utility, including in the synthesis of lipophilic active pharmaceutical ingredients. Herein, we report that a new, air‐stable Ni(II) pre‐catalyst incorporating the optimized ancillary ligand PhPAd‐DalPhos enables such transformations of (hetero)aryl chloride, bromide, and tosylate electrophiles to be carried out for the first time with substrate scope rivalling that achieved using state‐of‐the‐art Pd catalysts, including room temperature cross‐couplings of (hetero)aryl chlorides that are unprecedented for any catalyst (Pd, Ni, or other).

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“…Johnson untersucht elektronische Strukturen mithilfe von Dichtefunktionaltheorie; unter ihren Studienobjekten sind London‐Dispersionswechselwirkungen, Molekülkristalle, Schichtmaterialien, Elektride und metallorganische Komplexe. Ein Beitrag von ihr in Advanced Synthesis & Catalysis behandelt Nickel‐Präkatalysatoren für Kreuzkupplungen . Johnson wurde außerdem 2018 mit der Dirac‐Medaille der World Association of Theoretical and Computational Chemists (WATOC) ausgezeichnet.…”

Section: Ausgezeichnet …unclassified

Preise des Chemical Institute of Canada und der Canadian Society for Chemistry

2018

Angewandte Chemie

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AndrØ B. Charette (UniversitØ de Montreal) nimmt die CIC Medal in Empfang.C harette studierte an der UniversitØ de Montreal und an der University of Rochester,woerunter Anleitung von Robert K. Boeckman, Jr., im Jahr 1987 promovierte.N ach einem Postdoktorat bei David A. Evans an der Harvard University (1987)(1988)(1989) begann er seine unabhängige Laufbahn an der UniversitØ Laval, QuØbec.1994 wechselte er an die UniversitØ de Montreal, an der er zurzeit als Professor fürC hemie tätig ist. Charette und seine Gruppe entwickeln neue Methoden zur stereoselektiven Synthese organischer Verbindungen und Naturstoffe.I nd er Angewandten Chemie berichtete er über die katalytische asymmetrische Synthese hoch funktionalisierter Cyclopropane. [2] Alex Adronov (McMaster University) ist der Gewinner des CIC Macromolecular Science and Engineering Award. Adronov studierte an der McMaster University und promovierte 2001 unter Anleitung von Jean M. J. FrØchet an der University of California, Berkeley.Anschließend kehrte er an die McMaster University zurück, an der er seit 2013 eine Professur innehat. Adronov und seine Gruppe erforschen Design und Synthese von Polymeren mit neuartigen, definierten Strukturen und Eigenschaften. Sein Bericht über das rationale Design konjugierter Polymere zur selektiven Dispergierung metallischer einwandiger Kohlenstoff-Nanorçhren war Titelbildbeitrag in Chemistry-A European Journal.

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Bisphosphine‐Ligated Nickel Pre‐catalysts in C(sp²)–N Cross‐Couplings of Aryl Chlorides: A Comparison of Nickel(I) and Nickel(II)

Cited by 55 publications

References 44 publications

General Paradigm in Photoredox Nickel‐Catalyzed Cross‐Coupling Allows for Light‐Free Access to Reactivity

General Paradigm in Photoredox Nickel‐Catalyzed Cross‐Coupling Allows for Light‐Free Access to Reactivity

PhPAd‐DalPhos: Ligand‐Enabled, Nickel‐Catalyzed Cross‐Coupling of (Hetero)aryl Electrophiles with Bulky Primary Alkylamines

Preise des Chemical Institute of Canada und der Canadian Society for Chemistry

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Bisphosphine‐Ligated Nickel Pre‐catalysts in C(sp2)–N Cross‐Couplings of Aryl Chlorides: A Comparison of Nickel(I) and Nickel(II)

Cited by 55 publications

References 44 publications

General Paradigm in Photoredox Nickel‐Catalyzed Cross‐Coupling Allows for Light‐Free Access to Reactivity

General Paradigm in Photoredox Nickel‐Catalyzed Cross‐Coupling Allows for Light‐Free Access to Reactivity

PhPAd‐DalPhos: Ligand‐Enabled, Nickel‐Catalyzed Cross‐Coupling of (Hetero)aryl Electrophiles with Bulky Primary Alkylamines

Preise des Chemical Institute of Canada und der Canadian Society for Chemistry

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Bisphosphine‐Ligated Nickel Pre‐catalysts in C(sp²)–N Cross‐Couplings of Aryl Chlorides: A Comparison of Nickel(I) and Nickel(II)