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Carbonyl olefin metathesis

Oxetanes are the cycloadducts from a carbonyl compound and an olefin. This one step photochemical formation of a four membered ring heterocycle has been named the Paterno-Buchi reaction 489a> b). Oxetanes are important synthetic intermediates as they can fragment into the carbonyl-olefin pair by which they were not formed (a so termed carbonyl-olefin metathesis). Two examples of such oxetan cracking reactions are shown below in (4.76)490) and in (4.77)491) in this last example the oxetane was used as a precursor for the pheromone E-6-nonenol,... [Pg.66]

Rondan, N. G., Paddon-Row, M. N., CarameUa, R, Houk, K. A. (1981). Nonplanar Alkenes and Carbonyls A Molecular Distortion which Parallels Addition Steroselectivity. J. Am. Chem. Soc., 103,2436. Ess, D. H. Houk, K. N. (2007). Distortion/Interaction Energy Control of 1,3-Dipolar Cycloaddition Reactivity. J. Am Chem. Soc., 129, 10646-10647. Lopez, S. A., Houk, K. N. (2013). Alkene Distortion Energies and Torsional Effects Control Reactivities, and Stereoselectivities of Azide Cycloadditions to Norbomene and Substituted Norbomenes. J. Org. Chem., 78(5), 1778-1783. Hong, X., Liang, Y, Griffith, A. K., et al. (2013). Distortion-Accelerated Cycloadditions and Strain-Release-Promoted Cycloreversions in the Organocatalytic Carbonyl-Olefin Metathesis. Chem. Sci., 5(2), 471-475. [Pg.38]

We named this mechanism carbene mechanism because of the transition metal carbene complexes present in the three cycles. If it is true, then the reactions can be named metathesis reactions -OM, carbonyl-olefin metathesis (COM) and carbonyl metathesis (CM), respectively. All of them are double bond formation reactions. It is easy to recognize in this chart not only the catalytic cycle of OM but the Grubbs strategy for the synthesis of cycloalkenes via alkylidene-mediated OM and carbonyl olefination [15] as well (Chart 4a). [Pg.430]

Reaction under discussion Chart 4b. Carbonyl-olefin metathesis (COM)... [Pg.431]

Jones, G., M. A. Acquadro, and M. A. Carmody Long chain enals via carbonyl-olefin metathesis. An application in pheromone synthesis. J. Chem. Soc. Chem. Commun. 1975,206—2Q1. [Pg.164]

The photocycloaddition of triplet benzophenone to norbornene was originally reported by Scharf and Korte. The photoproduct 101 that is formed in high exo-selectivity could be thermally cleaved to the 5,e-unsaturated ketone 102, an appHcation of the carbonyl-olefin metathesis (COM) concept. The 1,4-biradical formed in the interaction of norbornene with o-dibenzoyl-benzene was trapped in an intramolecular fashion by the second carbonyl moiety. A highly regioselective reaction of triplet benzophenone was reported with 5-methylenenorborn-2-ene, with preferential attack toward the exo CC double bond. A number of publications have discussed the photocycloaddition reactions of triplet carbonyl compounds to norbornadiene and quadricyclane, as weU as the competition between the Paterno-Biichi reaction and the sensitized norbornadiene/quadricyclane interconversion. Oxetane formation has also been reported for the photoreaction of biacetyl and para-quinones with benzvalene. ... [Pg.1249]

Jones 11, G., Schwartz, S. B., and Marton, M. T, Regiospecific thermal cleavage of some oxetane photoadducts carbonyl-olefin metathesis in sequential photochemical and thermal steps,/. Chem. Soc., Chem. Commun., 374, 1973. [Pg.1256]

In addition to the applications reported in detail above, a number of other transition metal-catalyzed reactions in ionic liquids have been carried out with some success in recent years, illustrating the broad versatility of the methodology. Butadiene telomerization [34], olefin metathesis [110], carbonylation [111], allylic alkylation [112] and substitution [113], and Trost-Tsuji-coupling [114] are other examples of high value for synthetic chemists. [Pg.252]

As pointed out elsewhere (30-32), the relevance of ligand exchange to the logistics aspects of olefin metathesis is enormous. It has been speculated that a major contributor to the inefficiency of (CO)5W=CPh2 as a metathesis catalyst is the slow rate of displacement of carbonyl ligands. [Pg.452]

Cydopentadienyl Titanium Derivatives for Carbonyl Olefination/Olefin Metathesis... [Pg.102]

Although the molybdenum and ruthenium complexes 1-3 have gained widespread popularity as initiators of RCM, the cydopentadienyl titanium derivative 93 (Tebbe reagent) [28,29] can also be used to promote olefin metathesis processes (Scheme 13) [28]. In a stoichiometric sense, 93 can be also used to promote the conversion of carbonyls into olefins [28b, 29]. Both transformations are thought to proceed via the reactive titanocene methylidene 94, which is released from the Tebbe reagent 93 on treatment with base. Subsequent reaction of 94 with olefins produces metallacyclobutanes 95 and 97. Isolation of these adducts, and extensive kinetic and labeling studies, have aided in the eluddation of the mechanism of metathesis processes [28]. [Pg.102]

Olefin Metathesis and Subsequent Intramolecular Carbonyl Olelination... [Pg.102]

Grubbs has reported a similar tandem olefin metathesis-carbonyl olelination process for the preparation of cyclic olefins [31]. In this case, treatment of a keto-olefin with the molybdenum alkylidene 1 at 20°C generates an intermediate alkylidene complex. Under these conditions, competing intermolecular olelination does not occur. However, intramolecular carbonyl olelination of the initially formed alkylidene complex can occur and this results in the formation of a cyclic olefin. This tandem sequence is illustrated by the transformation of keto-olefins... [Pg.102]

Intermolecular Carbonyl Olefination and Subsequent Ring-Closing Metathesis... [Pg.104]

Tandem carbonyl olefmation—olefm metathesis utilizing the Tebbe reagent or dimethyl-titanocene is employed for the direct conversion of olefmic esters to six- and seven-mem-bered cyclic enol ethers. Titanocene-methylidene initially reacts with the ester carbonyl of 11 to form the vinyl ether 12. The ensuing productive olefm metathesis between titano-cene methylidene and the cis-1,2 -disubstituted double bond in the same molecule produces the alkylidene-titanocene 13. Ring-closing olefin metathesis (RCM) of the latter affords the cyclic vinyl ether 14 (Scheme 14.8) [18]. This sequence of reactions is useful for the construction of the complex cyclic polyether frameworks of maitotoxin [19]. [Pg.478]

Formation of cyclic enol ethers by carbonyl methylenation—olefin metathesis. [Pg.478]

As noted above, titanocene-alkylidenes can be prepared using various methods and starting materials. Like the methylidene complex, higher alkylidene complexes are useful for the transformation of carbonyl compounds to highly substituted olefins. Ketones and aldehydes are converted into substituted allenes by treatment with titanocene-alkenylidenes prepared by olefin metathesis between titanocene-methylidene and substituted allenes (see Scheme 14.7) [17]. Titanocene-alkenylidene complexes can also be prepared from... [Pg.488]

Grigg also extended these carbonylation reactions to a one- and two-pot protocols culminating in olefin metathesis [344], For example, substrate 332 is converted to 334, via 333, under these conditions. iV-Tosylindolines were constructed in like fashion. [Pg.150]

In situation (a) a strong carbon-metal bond results. To this group belong the typical Schrock-type carbenes [e.g. Np3Ta=CH(7Bu)], many of which are nucleophilic at carbon. Situation (b) should also lead to nucleophilic carbene complexes, albeit with a weaker carbon-metal bond. Typical reactions of nucleophilic carbene complexes include carbonyl olefination (Section 3.2.4) and olefin metathesis (Section 3.2.5). [Pg.2]

In addition to reactions characteristic of carbonyl compounds, Fischer-type carbene complexes undergo a series of transformations which are unique to this class of compounds. These include olefin metathesis [206,265-267] (for the use as metathesis catalysts, see Section 3.2.5.3), alkyne insertion, benzannulation and other types of cyclization reaction. Generally, in most of these reactions electron-rich substrates (e.g. ynamines, enol ethers) react more readily than electron-poor compounds. Because many preparations with this type of complex take place under mild conditions, Fischer-type carbene complexes are being increasingly used for the synthesis [268-272] and modification [103,140,148,273] of sensitive natural products. [Pg.36]

Schrock type carbene complexes are usually high-valent, electron-deficient complexes without 7t-accepting ligands. These complexes often behave as C-nucleophiles and typical reactions include carbonyl olefination and olefin metathesis. [Pg.105]

The carbonyl olefination is mechanistically closely related to olefin metathesis (Figure 3.40). [2 + 2] Cycloaddition of the carbene complex to the carbonyl... [Pg.126]

One remarkable application of carbene complexes is the combination of olefin metathesis with carbonyl olefination. If a given substrate has both C-C and C-0 double bonds, it might be possible to realize with a given carbene complex olefin metathesis to yield a new carbene complex, followed by an intramolecular carbonyl olefination step. As emphasized above, because of the irreversibility of the carbonyl olefination, stoichiometric amounts of carbene complex will be required. [Pg.134]

See other pages where Carbonyl olefin metathesis is mentioned: [Pg.430]    [Pg.430]    [Pg.325]    [Pg.1328]    [Pg.1329]    [Pg.1336]    [Pg.1341]    [Pg.526]    [Pg.33]    [Pg.82]    [Pg.104]    [Pg.106]    [Pg.111]    [Pg.475]    [Pg.487]    [Pg.519]    [Pg.127]    [Pg.291]    [Pg.120]    [Pg.127]    [Pg.480]    [Pg.4]   
See also in sourсe #XX -- [ Pg.430 ]



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Carbonyl olefination

Olefin metathesis

Olefine metathesis

Olefins carbonylation

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