The Buchwald–Hartwig Amination After 25 Years

Dorel, Ruth; Grugel, Christian P.; Haydl, Alexander M.

doi:10.1002/anie.201904795

Cited by 459 publications

(279 citation statements)

References 192 publications

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“…[23] Between these two extremes, bulky dialkyl biarylphosphine ligands introduced by Buchwald in 1998 for Pdcatalyzed coupling reactions, [25] provide electronically and sterically an intermediate alternative. Due to their stability with respect to oxidation [26] and synthetic accessibility, [27] this class of ligands has been employed in numerous Pd-catalyzed CÀ C [28,29] and CÀ X (X=N, O, F) [30][31][32][33] bond-forming reactions as well as in combination with other transition metals such as Ag, [34] Rh, [35,36] Ru [37] and Cu. [38] Our group introduced the use of dialkyl biarylphosphine ligands in the context of gold(I) catalysis [39] resulting in a new family of highly electrophilic gold(I) complexes A-D which were found to catalyze diverse transformations upon chloride abstraction.…”

Section: Introductionmentioning

confidence: 99%

Buchwald‐Type Ligands on Gold(I) Catalysis

Zuccarello

Zanini

Echavarren

2020

Israel Journal of Chemistry

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Dialkyl biarylphosphine ligands, presented in the context of Pd-catalyzed cross-coupling reactions, have been extensively applied in gold(I) catalysis giving rise to numerous transformations and reaction pathways otherwise inaccessible under the action of other gold(I) catalysts. This review emphasizes how this privileged ligand class, as well as recent modifications on the biarylphosphine motive, have triggered the discovery of new reactivities in our research program. Finally, the introduction of chiral information on the ligand scaffold provides new solutions to challenging gold(I)-catalyzed enantioselective transformations. Scheme 2. Formal [4 + 2] cycloaddition of 1,6-arylenynes 1. Scheme 3. Access to hydroacenes via sequential Sonogashira coupling/gold(I)-catalyzed 1,7-enyne cyclization. Scheme 4. Bifunctional electrophilic reactivity of intermediate 10. Review Isr. J. Chem. 2020, 60, 360 -372 Scheme 5. Gold-catalyzed hydroarylation of alkynyl-indoles and synthetic application in total synthesis of Kopsia indole alkaloids. Scheme 6. Gold(I) catalyzed reactions of 1,6-enyne functionalized with propargyl acetate. Scheme 7. Enantioselective total synthesis of (+)-schisanwilsonene A. Scheme 8. Gold(I)-catalyzed [2 + 2 + 2] cycloaddition of 1,6-enynes. Scheme 12. Diverse reactivity of gold(I)-carbenes generated by retro-Buchner reaction.Scheme 13. Second generation 7-styryl-1,3,5-trimethyl-cycloheptatrienes. Isolated yield and cis/trans ratio of diastereosiomers in parentheses. In grey: yield and diastereoselectivity obtained with first gen. of cycloheptatriene.

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Section: Introductionmentioning

confidence: 99%

Buchwald‐Type Ligands on Gold(I) Catalysis

Zuccarello

Zanini

Echavarren

2020

Israel Journal of Chemistry

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“…By expending the time and effort to understand the fundamental processes that form the basis of the catalytic systems that facilitated CÀ N coupling, we and others have been able to develop new and improved catalysts. [30][31][32][33][34][35][36] These catalysts, in turn, have greatly increased the range of substrates and applications that are suitable for the methodology that has been developed.…”

mentioning

confidence: 99%

In Praise of Basic Research as a Vehicle to Practical Applications: Palladium‐Catalyzed Coupling to Form Carbon‐Nitrogen Bonds

Buchwald

Hartwig

2020

Israel Journal of Chemistry

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“…An increase in the bulkiness of the substituents at the bromine atom in isomeric 1-bromo-2-fluoro-3-(trifluoromethyl)benzene and 2-bromo-1-fluoro-4-(trifluoromethyl)benzene led to insignificant decrease in the yields of corresponding derivatives 22 and 23 (entries 9 and 10). The introduction of more sterically hindered compounds in which the trifluoromethyl group is in the ortho-position to bromine demanded an increase of the catalyst to 8 mol% and the products 24-26 were obtained in low yields (entries [11][12][13]. The analysis of the reaction mixtures by 1 H NMR showed that many side processes other than amination took place in these cases (see also Supplementary Information, Scheme S2, Tables S3 and S4).…”

Section: Catalytic Amination Of Halogeno(trifluoromethyl)benzenesmentioning

confidence: 99%

“…This reinforces the importance of studies on convenient synthetic routes to these compounds, among which, the catalytic amination of corresponding halogenosubstituted fluorinated (hetero)aromatic compounds can be regarded as most straightforward and versatile procedure. Palladium-catalyzed amination of (hetero)aryl halides is well-known and widely described in the literature [9][10][11]. During last decade, an important trend in the catalytic organic synthesis has been clearly exhibited, that is, the so-called renaissance of Ullmann chemistry, which is extremely important for the development of new strategies of C-N bond formation [12][13][14][15][16][17].…”

Section: Introductionmentioning

confidence: 99%

Cu(I)- and Pd(0)-Catalyzed Arylation of Oxadiamines with Fluorinated Halogenobenzenes: Comparison of Efficiency

et al. 2020

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The comparison of the possibilities of Pd- and Cu-catalyzed amination reactions using fluorine-containing aryl bromides and iodides with oxadiamines to produce their N,N′-diaryl derivatives was carried out. The dependence of the reactivity of the aryl halides on the nature of the substituents and halogen atoms as well as on the structure of oxadiamines was investigated. It was found that the copper-catalyzed reactions were somewhat comparable with the palladium-mediated processes in the majority of cases, especially in the reactions with para-fluorine- and para-(trifluoromethyl)-substituted aryl halides, although the necessity to use aryl iodides in the Cu(I)-catalyzed amination was obvious. Pd catalysis was found inevitable for the successful amination of more sterically hindered ortho-(trifluoromethyl)aryl bromides.

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The Buchwald–Hartwig Amination After 25 Years

Cited by 459 publications

References 192 publications

Buchwald‐Type Ligands on Gold(I) Catalysis

Buchwald‐Type Ligands on Gold(I) Catalysis

In Praise of Basic Research as a Vehicle to Practical Applications: Palladium‐Catalyzed Coupling to Form Carbon‐Nitrogen Bonds

Cu(I)- and Pd(0)-Catalyzed Arylation of Oxadiamines with Fluorinated Halogenobenzenes: Comparison of Efficiency

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