Comparative Screening of DalPhos/Ni Catalysts in C‐N Cross‐couplings of (Hetero)aryl Chlorides Enables Development of Aminopyrazole Cross‐couplings with Amine Base

Abstract: A systematic competitive evaluation of the DalPhos ligand family in nickel-catalyzed N-arylation chemistry is reported, involving primary (linear and branched) and secondary alkylamines, as well as a primary five-membered heteroarylamine (aminopyrazole), in combination with a diverse set of test electrophiles and bases (NaOtBu, K 2 CO 3 , DBU/NaTFA). In addition to providing optimal ligand/catalyst identification, and bringing to light methodology limitations (e. g., unwanted CÀ O cross-coupling with NaOtBu), … Show more

“…We focused our attention on the use of air-stable ( L )­Ni­( o -tolyl)Cl precatalysts, where L = PAd2-DalPhos ( L1 ) or CyPAd-DalPhos ( L2 ). The L1 -precatalyst, while not previously examined in O -arylations of the type under investigation herein, has proven useful in combination with DBU/NaTFA for Ni-catalyzed C–N cross-couplings, ,, while ( L2 )­Ni­( o -tolyl)Cl is an effective precatalyst for the O -arylation of aliphatic alcohols and amino alcohols using an inorganic base.…”

Ligand-Enabled Nickel Catalysis for the O-Arylation of Alcohols and Phenols with (Hetero)aryl Chlorides Using a Soluble Organic Base

“…We focused our attention on the use of air-stable ( L )­Ni­( o -tolyl)Cl precatalysts, where L = PAd2-DalPhos ( L1 ) or CyPAd-DalPhos ( L2 ). The L1 -precatalyst, while not previously examined in O -arylations of the type under investigation herein, has proven useful in combination with DBU/NaTFA for Ni-catalyzed C–N cross-couplings, ,, while ( L2 )­Ni­( o -tolyl)Cl is an effective precatalyst for the O -arylation of aliphatic alcohols and amino alcohols using an inorganic base.…”

Ligand-Enabled Nickel Catalysis for the O-Arylation of Alcohols and Phenols with (Hetero)aryl Chlorides Using a Soluble Organic Base

“…For simplicity, and to focus specifically on ascertaining the impact of the bisphosphine ancillary ligand identity on reaction outcome, we employed a single set of conditions (5 mol % Ni, NaO t Bu, toluene, 110 °C, 18 h). Moreover, given the general favorability of C−N over C−O bond formation in competitive metal‐catalyzed cross‐couplings, [1g, 9] including as observed in selected examples involving (DalPhos)Ni( o ‐tol)Cl pre‐catalysts, [12c,g, 14] emphasis was placed on identifying the combination of ancillary ligand and amino alcohol component structural features that enable C−O cross‐coupling to be achieved in the presence of potentially contending NH reactive sites. In the competitions, the cross‐coupling of 6‐chloroquinoline with 4‐methyl‐1‐pentanol ( 1 a ) leading to 3 a was examined throughout, using structurally varied competing NH nucleophiles ( 2 a – 2 e , Figure 3A–E).…”

Nickel‐Catalyzed Chemoselective Arylation of Amino Alcohols

“…Furthermore, strong inorganic bases exhibit poor substrate functional group tolerance, and in the case of NaO t Bu can react as a competitive nucleophile in cross-coupling chemistry. 42 In 2019, Simmons and co-workers reported a so-called ‘dual-base’ system using 1,8-diazabicyclo[5.4.0]undec-7-ene (DBU) and halide scavenger sodium trifluoroacetate (NaTFA) to circumvent the limitations of inorganic bases in palladium-catalyzed C–N cross-couplings of primary amides or anilines with (hetero)aryl chlorides. 43 Inspired by this strategy, in 2021 we targeted the nickel-catalyzed N -arylation of amides using a DBU/NaTFA through an initial ligand screen that included PAd-DalPhos, CyPAd-DalPhos, PhPAd-DalPhos ( vide infra ), PAd2-DalPhos ( vide infra ), XantPhos, DPPF, JosiPhos CyPF-Cy, IPr, and SIPr.…”

“…As such, in 2023 we conducted a systematic ‘head-to-head’ reactivity study employing representative reaction classes (known and new transformations) as a means of directly comparing the performance of these DalPhos ligands in nickel-catalyzed C–N cross-coupling. 42 In this study, 672 individual experiments were conducted under mild conditions (3 mol% Ni, 60 °C), with various reaction parameters examined in the C–N cross-coupling of NH nucleophiles with (hetero)aryl chlorides, including: base ( i.e. , NaO t Bu, K 2 CO 3 , or DBU/NaTFA); solvent ( i.e.…”

The development of cage phosphine ‘DalPhos’ ligands to enable nickel-catalyzed cross-couplings of (hetero)aryl electrophiles