Phenylacetylene propiolate complexes

Rh complexes are examples of the most effective catalysts for the polymerization of monosubstituted acetylenes, whose mechanism is proposed as insertion type. Since Rh catalysts and their active species for polymerization have tolerance toward polar functional groups, they can widely be applied to the polymerization of both non-polar and polar monomers such as phenylacetylenes, propiolic acid esters, A-propargyl amides, and other acetylenic compounds involving amino, hydroxy, azo, radical groups (see Table 3). It should be noted that, in the case of phenylacetylene as monomer, Rh catalysts generally achieve quantitative yield of the polymer and almost perfect stereoregularity of the polymer main chain (m-transoidal). Some of Rh catalysts can achieve living polymerization of certain acetylenic monomers. The only one defect of Rh catalysts is that they are usually inapplicable to the polymerization of disubstituted acetylenes. Only one exception has been reported which is described below. 

No relevant iridium alkynyls exist to date. However, the rhodium complexes Tp RhH(C = CPh)(PR3) (R = C6H5 (559), C6H4F-4 (560)) have been prepared by the addition of phenylacetylene to the respective bis(phosphine) complexes, and the ethyl propiolate complex Tp RhH(C = CC02Et)(PPh3) (561) has very recently been prepared in the same way. ... 

Intermolecular Nucleophilic Substitution with Heteroatom Nucleophiles. A patent issued in 1965 claims substitution for fluoride on fluorobenzene-Cr(CO)3 in dimethyl sulfoxide (DMSO) by a long list of nucleophiles including alkoxides (from simple alcohols, cholesterol, ethylene glycol, pinacol, and dihydroxyacetone), carboxylates, amines, and carbanions (from triphenyhnethane, indene, cyclohexanone, acetone, cyclopentadiene, phenylacetylene, acetic acid, and propiolic acid). In the reaction of methoxide with halobenzene-Cr(CO)3, the fluorobenzene complex is ca. 2000 times more reactive than the chlorobenzene complex. The difference is taken as evidence for a rate-limiting attack on the arene ligand followed by fast loss of halide the concentration of the cyclohexadienyl anion complex does not build up. In the reaction of fluorobenzene-Cr(CO)3 with amine nucleophiles, the coordinated aniline product appears rapidly at 25 °C, and a carefiil mechanistic study suggests that the loss of halide is now rate limiting. 

The formation of unsubstituted quinoxaline 1,4-dioxide in the Beirut reaction has been observed using a number of substrates benzoylacetalde-hyde and its enamines,395 vinyl acetate (Et2NH),396 acetylene (NEt3)397,398 propargyl alcohol, propiolic acid, and phenylacetylene (various amines).398 Some of these are unexceptional, but the apparent dephenylation in the case of the phenylacetylene is surprising. However, recently the reaction of benzofuroxan with diethylamine was reinvestigated399 (see Section V,E), and quinoxaline dioxide was found to be one of the major products from a complex sequence of oxidation and reduction reactions. It seems probable with phenylacetylene, and possible in other cases too, that the amines play more than a catalytic role in quinoxaline dioxide production. The amino-quinoxalinone 175 was reported, using vinyl acetate and morpholine.396... 

In contrast to the reaction with phenylacetylene, the treatment of 190 with 2 equiv of methyl propiolate leads to the alkenyl-alkynyl compound 200 (Scheme 55). The use of a 1 1 molar ratio of alkyne to osmium complex gives the same product along with unreacted dihydride-dihydrogen complex [79]. The addition of a toluene solution of HCl to a toluene solution of 200 produces the carbon-carbon coupling of the alkynyl and alkenyl fragments to give selectively the... 

The tungsten carbene complex 408 reacts with phenylacetylene to give the phenol 409, accompanied by the methanol trapping product 410 and the cyclobutenone 41 Cycloaddition of 1,1-dimethylallene to ethyl propiolate affords the cyclobutene 412. ... 

The action of the complex 570 on various alkynes gives diverse products ethyl propiolate affords a mixture of all three possible triethyl benzenetricarboxylates, phenylacetylene yields mainly the trans-QnyviQ 571 3-hexyne behaves similarly, but 1-octyne isomerizes to 2-octyne . The palladacyclopentadiene 572 catalyses the co-trimerization of hex-3-yne... 

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