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Phenols palladium-catalyzed directed

B. PALLADIUM-CATALYZED DIRECT PHENOL SYNTHESIS FROM BENZENE... [Pg.1228]

Chlorination of Aromatic Compounds. NCS can be used for the chlorination of electron-rich aromatic compounds, such as phenol and xylene derivatives under the microwave conditions. Palladium-catalyzed directing group-assisted chlorination of arenes has also been reported (eq 48). ... [Pg.182]

Scheme 3.9 Palladium-catalyzed directed C-H alkenylation of phenols. Scheme 3.9 Palladium-catalyzed directed C-H alkenylation of phenols.
Biaryl structures are found in a wide range of important compounds, including natural products and organic functional materials [8,80,81]. One of the most common and useful methods for preparing biaryls is the palladium-catalyzed coupling of aryl halides with arylmetals (Scheme 1, mechanism A). On the other hand, aryl halides have been known to couple directly with aromatic compounds as formal nucleophiles under palladium catalysis. While the intramolecular cases are particularly effective, certain functionalized aromatic compounds such as phenols and aromatic carbonyl compounds, as well as... [Pg.64]

The ready availability of arylboronates by an aromatic C-H borylation provides a synthetic link to the well-established palladium-catalyzed cross-coupling reactions, rhodium-catalyzed 1,4-addition to a,p-unsaturated carbonyl compounds, and other bond forming reactions using arylboronic esters (Scheme 2.12). Borylation of 1,3-dichlorobenzene with pinacolborane is followed directly by a cross-coupling reaction with methyl p-bromobenzoate for the synthesis of a biaryl product in 91% yield [60]. Pinacol esters of arylboronic acids react much slower than the free acids [62], but both derivatives achieve high isolated yields and comparable enantioselectivities (91% ee) in asymmetric 1,4-addition to N-benzyl crotonamides [63]. Borylation of arenes followed by oxidation of the C-B bond is synthetically equivalent to an aromatic C-H oxidation to phenols [64]. Oxidation of the resulting arylboronates with Oxone in a 1 1 acetone-water solution is completed within 10 min at room temperature. [Pg.115]

Newman et al. reported an approach to 2-bromobenzofurans using an intramolecular copper catalyzed C—O coupling of gm-dibromovinyl phenols (Scheme 24.29, disconnection D-2 and Scheme 24.31) [115]. This process is directly analogous to their palladium-catalyzed route to indoles via gem-dihalovinylaniline precursors (Scheme 24.3). Like the indole synthesis, further development of this chemistry has focused on harnessing the synthetic potential of the second bromine atom. To this end, several research groups have reported routes incorporating a tandem direct arylation leading to 2-aryl [116] and heteroaryl [27,117] benzoxazoles. [Pg.664]

Several reports have been made of a successful catalyzed addition/ substitution reaction resulting in direct attachment of phosphorus to aromatic rings. The preparation of mixed triarylphosphines has been accomplished by the reaction of tin- or silicon-substituted diphe-nylphosphines with aryl halides catalyzed by palladium reagents.74 A similar transformation has also been reported using nickel catalysis.75 The addition/substitution of diphenylphosphine to triflate functionalized phenolic linkages has been of use for the preparation of substances as analogues of tyrosine-related amino acid derivatives, accomplished with catalysis by palladium acetate (Equation 4.29).76... [Pg.125]

Analogously, in the presence of silica-supported palladium catalysts, benzene is oxidized under ambient conditions to give phenol, benzoquinone, hydroquinone and catechol [37b]. Palladium chloride, used for the catalyst preparation, is believed to be converted into metallic palladium. The synthesis of phenol from benzene and molecular oxygen via direct activation of a C-H bond by the catalytic system Pd(OAc)2-phenanthroline in the presence of carbon monoxide has been described [38]. The proposed mechanism includes the electrophilic attack of benzene by an active palladium-containing species to to produce a a-phenyl complex of palladium(ll). Subsequent activation of dioxygen by the Pd-phen-CO complex to form a Pd-OPh complex and its reaction with acetic acid yields phenol. The oxidation of propenoidic phenols by molecular oxygen is catalyzed by [A,A"-bis(salicylidene)ethane-l,2-diaminato]cobalt(ll)[Co(salen)] [39]. [Pg.391]

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Phenols palladium catalyzed

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