Ayaka Yasutome scite author profile

Nickel(0)-catalyzed cross-coupling of methoxyarenes through C-O bond activation has been the subject of considerable research because of their favorable features compared with those of the cross-coupling of aryl halides, such as atom economy and efficiency. In 2008, we have reported nickel/PCy-catalyzed cross-coupling of methoxyarenes with arylboronic esters in which the addition of a stoichiometric base such as CsF is essential for the reaction to proceed. Recently, we have also found that the scope of the substrate in the Suzuki-Miyaura-type cross-coupling of methoxyarenes can be greatly expanded by using 1,3-dicyclohexylimidazol-2-ylidene (ICy) as the ligand. Interestingly, a stoichiometric amount of external base is not required for the nickel/ICy-catalyzed cross-coupling. For the mechanism and origin of the effect of the external base to be elucidated, density functional theory calculations are conducted. In the nickel/PCy-catalyzed reactions, the activation energy for the oxidative addition of the C(aryl)-OMe bond is too high to occur under the catalytic conditions. However, the oxidative addition process becomes energetically feasible when CsF and an arylboronic ester interact with a Ni(PCy)/methoxyarene fragment to form a quaternary complex. In the nickel/ICy-catalyzed reactions, the oxidative addition of the C(aryl)-OMe bond can proceed more easily without the aid of CsF because the nickel-ligand bonds are stronger and therefore stabilize the transition state. The subsequent transmetalation from an Ar-Ni-OMe intermediate is determined to proceed through a pathway with lower energies than those required for β-hydrogen elimination. The overall driving force of the reaction is the reductive elimination to form the carbon-carbon bond.

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Ni(0)/NHC-catalyzed amination of N-heteroaryl methyl ethers through the cleavage of carbon‒oxygen bonds

Tobisu

Yasutome

Yamakawa

et al. 2012

Tetrahedron

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1,3-Dicyclohexylimidazol-2-ylidene as a Superior Ligand for the Nickel-Catalyzed Cross-Couplings of Aryl and Benzyl Methyl Ethers with Organoboron Reagents

et al. 2014

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A new catalytic system has been developed involving the use of Ni(cod)2 in conjunction with 1,3-dicyclohexylimidazol-2-ylidene for the cross-coupling of aryl and benzyl methyl ethers with organoboron reagents. This method not only allows for the use of readily available methyl ethers as halide surrogates but also provides a functional group tolerant method for the late-stage derivatization of complex molecules.

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ChemInform Abstract: 1,3‐Dicyclohexylimidazol‐2‐ylidene as a Superior Ligand for the Nickel‐Catalyzed Cross‐Couplings of Aryl and Benzyl Methyl Ethers with Organoboron Reagents.

et al. 2015

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The developed reaction system is inapplicable to secondary benzylic ethers other than 2-[methoxy(phenyl)methyl]naphthalene (IX). In contrast to previous procedures using PCy 3 as the ligand, the method allows the coupling of heteroaryl-containing ethers. The procedure is not applicable to the coupling of pivalates, thus allowing orthogonal cross-coupling of 4-methoxyphenylpivalate (XIV). The reaction can be scaled up. -(TOBISU, M.; YASUTOME, A.; KINUTA, H.; NAKAMURA, K.; CHATANI*, N.; Org. Lett. 16 (2014) 21, 5572-5575, http://dx.

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Ayaka Yasutome

Combined Theoretical and Experimental Studies of Nickel-Catalyzed Cross-Coupling of Methoxyarenes with Arylboronic Esters via C–O Bond Cleavage

Ni(0)/NHC-catalyzed amination of N-heteroaryl methyl ethers through the cleavage of carbon‒oxygen bonds

1,3-Dicyclohexylimidazol-2-ylidene as a Superior Ligand for the Nickel-Catalyzed Cross-Couplings of Aryl and Benzyl Methyl Ethers with Organoboron Reagents

ChemInform Abstract: 1,3‐Dicyclohexylimidazol‐2‐ylidene as a Superior Ligand for the Nickel‐Catalyzed Cross‐Couplings of Aryl and Benzyl Methyl Ethers with Organoboron Reagents.

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