Promoters carbonylation

This hypothesis is supported by Chauvin s report (33) on a catalyst derived from (CO)5W=C(OEt)C4H9. This highly stable carbene-W(O) compound does not display catalytic activity for cyclopentene monomer. When mixed in the dark with TiCl4, a slow evolution of 1 equivalent of CO occurs. Subsequent thermal or photochemical activation produces ah extremely efficient catalyst system. Chauvin demonstrated that a high conversion to polypentenamer is obtainable at a W/cyclopentene ratio of 10 li at 5°C. The role of TiCI4 is not well understood nevertheless, it promotes carbonyl displacement which appears to be essential. 

Evidence has been presented that iodide salts can promote the oxidative addition of Mel to [Rh(CO)2l2]"> the rate-determining step in the Rh cycle [12]. The precise mechanism of this promotion remains unclear formation of a highly nucleophilic dianion, [Rh(CO)2l3]2 , has been suggested, although there is no direct spectroscopic evidence for its detection. Possible participation of this dianion has been considered in a theoretical study [23]. An alternative nucleophilic dianion, [Rh(CO)2l2(OAc)]2 , has also been proposed [31,32] on the basis that acetate salts (either added or generated in situ via Eq. 7) can promote carbonylation. Iodide salts have also been found to be effective promoters for the anhydrous carbonylation of methyl acetate to acetic anhydride [33]. In the absence of water, the catalyst cannot be maintained in its active form ([Rh(CO)2l2]") by addition of Lil alone, and some H2 is added to the gas feed to reduce the inactive [Rh(CO)2l4]. ... 

When sodium ethoxide is used in place of sodium hydroxide in the carbonylation reaction of benzyl halides with dicobalt octacarbonyl, ethyl esters are produced instead of the acids [15], Esters are also produced directly from iodoalkanes through their reaction with molybdenum hexacarbonyl in the presence of tetra-/i-butylammo-nium fluoride [16]. Di-iodoalkanes produce lactones [16]. The reaction can be made catalytic in the hexacarbonyl by the addition of methyl formate [16]. t-Butyl arylacetic esters are produced in moderate yield (40-60%) under phase-transfer catalytic conditions in the palladium promoted carbonylation reaction with benzyl chlorides [17]. 

As indicated in Chapter 8, the production of alkanes, as by-products, frequently accompanies the two-phase metal carbonyl promoted carbonylation of haloalkanes. In the case of the cobalt carbonyl mediated reactions, it has been assumed that both the reductive dehalogenation reactions and the carbonylation reactions proceed via a common initial nucleophilic substitution reaction and that a base-catalysed anionic (or radical) cleavage of the metal-alkyl bond is in competition with the carbonylation step [l]. Although such a mechanism is not entirely satisfactory, there is no evidence for any other intermediate metal carbonyl species. 

CONTENTS Introduction to Series An Editor s Foreword, Albert Padwa. Introduction, Timothy J. Mason. Historical Introduction to Sonochemistry, D. Bremner. The Nature of Sonochemical Reactions and Sonoluminescence, M.A. Mar-guli. Influence of Ultrasound on Reactions with Metals, 6. Pugin and A.T. Turner. Ultrasonically Promoted Carbonyl Addition Reactions, J.L. Luche. Effect of Ultrasonically Induced Cavitation on Corrosion, W.J. Tomlinson. The Effects ... 

Enantiopure carbacepham derivatives 54 have been prepared in good yields via Lewis acid promoted carbonyl-ene cyclization of the corresponding 2-azetidinone-tethered alkenylaldehydes 53 (Scheme 18) [63]. 

One of our initial forays into Mo(CO)6-promoted carbonylations included the investigation of intermolecular reactions using amines as nucleophiles to form secondary and tertiary aromatic amides from aryl bromides and iodides [27]. Subsequent work using the activating preligand f-Bu3PHBF4 has allowed for the extension of this chemistry into examples using aryl chlorides as substrates (Scheme 1) [30]. 

A ruthenium-promoted carbonylation of allenyl alcohols 884 is a powerful method for the synthesis of 5,6-dihydropyran-2-ones 885 (Equation 356) <20000L441, 2003JOC8571>. Co2(CO)6-mediated tandem [5+1]/ [2+2+1] cycloaddition reactions of the epoxide 886 with carbon monoxide provide a one-pot synthesis of tricyclic 5,6-dihydropyran-2-ones 887 in good yield (Equation 357) <2003JA9610>. 

Figure 4 Simplified mechanism for the Irjl catalyzed, Ru promoted carbonylation of methanol.

The Lewis acid-promoted carbonyl-ene reaction of enantiomerically pure 4-oxoazetidine-2-carbaldehydes gave homoallylic alcohols, which have been used for the diastereoselective preparation of fused bicyclic, tricyclic and tetracyclic p-lactams of non-conventional structure 49 and 50, using tandem one-pot radical addition/cyclization or elimination-intramolecular Diels-Alder sequences <03JOC3106>. 

Some insight into the mechanisms of the iodine-promoted carbonylation has been obtained by radioactive tracer techniques [17] and low-temperature NMR spectroscopy [18]. The mechanism involves the formation of HI, which in a series of reactions forms with rhodium a hydrido iodo complex which reacts with ethylene to give an ethyl complex. Carbonylation and reductive elimination yield propionic acid iodide. The acid itself is then obtained after hydrolysis. The rate of carboxylation was reported to be accelerated by the addition of minor amounts of iron, cobalt, or manganese iodide [19]. The rhodium catalyst can be stabilized by triphenyl phosphite [20]. However, it is doubtful whether the ligand itself would meet the requirements of an industrial-scale process. 

Ceccarelli, S., Piarulli, U., Gennari, C. Effect of ligands and additives on the palladium-promoted carbonylative coupling of vinyl stannanes and electron-poor enol triflates. J. Org. Chem. 2000, 65, 6254-6256. 

Alkenes. Titanocene bis(triethyl phosphite), which is prepared in situ from titanocene dichloride, triethylphosphite, and Mg, promotes carbonyl olefmation with gem-dichlorides and dithioacetals [e.g., l,l-bis(phenylthio)cyclobutane ] including those derived from enals (to give 1,3-dienes). Enol ethers-and alkenyl sulfides are obtained in the analogous reaction with dithioorthoformates and trithioorthoformates. Cross-coupling of dithioacetal and thiolesters furnishes predominantly (Z)-alkenyl sulfides. ... 

The precise mechanism of this promotion remains unclear formation of a highly nucleophilic dianion, [Rh(CO)2I3]2-, has been suggested, although there is no direct spectroscopic evidence of it. The possible participation of this dianion has been considered in a theoretical investigation [34]. An alternative nucleophilic dianion, [Rh(CO)2I2(OAc)]2-, has also been proposed [35,36] on the basis that acetate salts (either added or generated in situ via Equation (8)) can promote carbonylation. 

Platinum-or-carbon or platinum oxide modified by FeCl2 and zinc acetate are among the earliest successful systems tested. Zinc ions inhibit double bond saturation and Fe(II) ions promote carbonyl reduction, as ... 

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