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Carbenes, coupling electronic effects

The tris-carbene ligand family with fac geometry points its three wingtip groups downwards around the metal shielding it effectively from the approach of any but small substrates. Its main application is therefore the activation of small molecules, including the activation of dioxygen and proton coupled electron transfer (PCET), a reaction normally performed by certain enzymes [70,71],... [Pg.45]

A novel class of quinone boronic esters has been prepared via a Dotz annulation of Fischer carbene complexes with alkynylboronates. The origin of the high regioselec-tivity is discussed in terms of steric and electronic effects. Additionally, these compounds undergo Pd-catalyzed coupling reactions to give substituted quinones and hy-droquinones (Scheme 9.49) [102]. [Pg.367]

Enolate Arylation Reactions. The direct coupling of aryl halides with enolates (or enolate equivalents) of ketones, esters, and amides is now well established. Malonic esters, cyanoacetates, and malononitrile can be arylated upon treatment with aryl halides in the presence of Pd(dba)2 and electron-rich phosphines or N-heterocyclic carbenes. Carbene ligands have also proven effective in promoting the a-arylation of protected amino acids. As a caveat to the use of Pd(dba)2, the arylation of azlactones in the presence of this palladium source and phosphines was less efficient than that with Pd(OAc)2. The dba ligands were found to react with azlactone substrates to form catalytically inactive palladium complexes. Diastereoselective enolate arylation has been achieved through the use of chiral auxiliaries appended to preformed enol silyl ethers (eq 23). The role of the zinc additive is not clear, however, it appears that discrete zinc enolates are not involved. [Pg.6]

Phosphinocarbene or 2 -phosphaacetylene 4, which is in resonance with an ylide form and with a form containing phosphoms carbon triple bond, is a distillable red oil. Electronic and more importantly steric effects make these two compounds so stable. Carbene 4 adds to various electron-deficient olefins such as styrene and substituted styrenes. Bertrand et al. have made excellent use of the push-pull motif to produce the isolable carbenes 5 and 6, which are stable at low temperature in solutions of electron-donor solvents (THF (tetrahydrofuran), diethyl ether, toluene) but dimerizes in pentane solution. Some persistent carbenes are used as ancillary ligands in organometallic chemistry and in catalysis, for example, the ruthenium-based Grubbs catalyst and palladium-based catalysts for cross-coupling reactions. [Pg.159]

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Effective coupling

Electron coupled

Electron coupling

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