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Diazo decomposition reaction

Increasing the temperature of the coupling reaction usually has an unfavorable effect because the diazo decomposition reactions have greater... [Pg.427]

Rh-mediated intramolecular C-H insertion is effected by Rh2(OAc)4 to afford novel fused cyclic ketones.70 The ring fused cyclopentenone derivative (235) is developed based on Rh2(NHCOMe)4-catalyzed diazo decomposition reaction of 233 and 234.84... [Pg.682]

TMSCl is a suitable additive for some Rh- and FeC - catalyzed diazo decomposition reactions. TMSCl itself can also convert /3-trimethylsiloxy a-diazocarbonyl cortpounds into a mixture of a-chloro-/3,T-unsaturated and y-chloro-a,/ -unsaturated carbonyl compounds. ... [Pg.118]

The diazo ketone 3, when treated with silver oxide as catalyst, decomposes into ketocarbene 5 and dinitrogen Na. This decomposition reaction can also be achieved by heating or by irradiation with uv-light. The ketocarbene undergoes a Wolff rearrangement to give a ketene 6 ... [Pg.17]

In some technical azo coupling processes the addition of common salt before coupling gives a higher yield. This can be attributed to the different dependences of the reactions rates of coupling and diazo decomposition on ionic strength... [Pg.353]

Abstract The dirhodium(II) core is a template onto which both achiral and chiral ligands are placed so that four exist in a paddle wheel fashion around the core. The resulting structures are effective electrophilic catalysts for diazo decomposition in reactions that involve metal carbene intermediates. High selectivities are achieved in transformations ranging from addition to insertion and association. The syntheses of natural products and compounds of biological interest have employed these catalysts and methods with increasing frequency. [Pg.203]

Diazocarbonyl compounds are especially useful in these reactions because of their ease of formation, relative stability, and controlled reactivity in catalytic reactions [ 1,11 ]. As outlined in Scheme 1, a wide diversity of methodologies are available for this synthesis, with access dependent on the nature of Z. Vinyl- and aryldiazoacetates are accessible by other pathways [2]. The order of reactivity toward diazo decomposition has diazoketones and diazoacetates much more reactive than diazoacetoacetates or diazomalonates. However, the influence of electronic effects on reactivities is more pronounced with phenyl- and vinyl-diazoacetates than with diazoacetoacetates and, especially, diazoacetates [12]. [Pg.204]

The trialkyltrlazenes are essentially protected diazo-nlum ions. They decompose cleanly and quantitatively to the dlazonlum ions and the corresponding amines over a wide pH range (M). Good kinetic data were obtained over the range of pH 6.9 - 8.3. In more acid solutions, the reactions are too rapid to measure by conventional kinetics. The decomposition reaction is subject to general acid catalysis. Thus, the trialkyltrlazenes will be a useful tool for the study of the reactive intermediates produced by the metabolism of dialkyl-nitrosamines. [Pg.12]

Protected 6-amino-hexahydro-l,7-dioxopyrazolo[l,2-4]pyrazole-2-carboxylic acid 274 is available by a thermolytic decomposition of diazo compound 273 via the Wolff rearrangement. The starting compound is simply available by alkylation of racemic 272 with the corresponding bromoacetoacetate and subsequent diazo transfer reaction (Scheme 35) <1996TL4891>. [Pg.407]

An alternative approach in the asymmetric catalysis in 1,3-dipole cycloaddition has been developed by Suga and coworkers. The achiral 1,3-dipole 106 was generated by intramolecular reaction of an Rh(ii) carbene complex with an ester carbonyl oxygen in the Rh2(OAc)4-catalyzed diazo decomposition of <9-methoxycarbonyl-o -diazoacetophenone 105 (Scheme 12). The asymmetric induction in the subsequent cycloaddition to G=G and G=N bond was achieved by chiral Lewis acid Sc(iii)-Pybox-/-Pr or Yb(iii)-Pybox-Ph, which can activate the dipolarophile through complexation. With this approach, up to 95% ee for G=0 bond addition and 96% ee for G=G bond addition have been obtained, respectively. ... [Pg.163]

Similar to those of oxygen and sulfur ylide, ammonium ylide or azomethine ylide can be generated by the interaction of metal carbene and amine or imine, respectively. As is the case of sulfur, nitrogen also has a strong coordinating ability to a metal complex. Consequently, metal complex-catalyzed diazo decomposition in the presence of an amine or imine usually requires high reaction temperatures (Figure 6). [Pg.168]

Doyle and co-workers have recently reported Rh(ii) or copper complex-catalyzed reaction of aryldiazoacetate or vinyldiazoacetate with imines. " Diastereoselective aziridine formation is observed in the Rh2(OAc)4-catalyzed diazo decomposition of diazo phenylacetate in the presence of arylimine (Equation (28)). " When the reaction was carried out with aldehyde, epoxide 187 was obtained. [Pg.172]

In addition to copper and rhodium catalysts commonly used in the generation of metal carbene complexes, other transition metals have also been explored in the diazo decomposition and subsequent ylide generation.Che and co-workers have recently studied ruthenium porphyrin-catalyzed diazo decomposition and demonstrated a three-component coupling reaction of a-diazo ester with a series of iV-benzylidene imines and alkenes to form functionalized pyrrolidines in excellent diastereoselectivities (Scheme 20). ... [Pg.173]

Because of the small concentration of the 2 1 complex the last term can be ignored. From the extreme rate values in the absence of zinc and with an excess of zinc, 2i and 22 are determined as 2.4 X 104 min.-1 and 1.57 min.-1 respectively. These values can be combined with the trend in the rate constants to give the stability constant of the reactive complex, presumably Zn(OR)(OAc), as 3 X 107. For the simple zinc complex in water the literature values of the stability constant for the 1 1 complex vary from 2.5 X 108 to 6.3 X 108. The diazo coupling reaction of the complex indicates the smaller effect of coordination vis a vis protonation since this reaction is very sensitive to such effects and does not proceed with phenols. Unfortunately the choice of cations for such a reaction is restricted since the cation should not interfere with the analytical methods used to obtain the kinetic data nor should it introduce additional reactions such as occur with transition metal cations which can catalyze the decomposition of the diazonium salt via a redox process. [Pg.156]

The cyclopropanation of alkenes, alkynes, and aromatic compounds by carbenoids generated in the metal-catalyzed decomposition of diazo ketones has found widespread use as a method for carbon-carbon bond construction for many years, and intramolecular applications of these reactions have provided a useful cyclization strategy. Historically, copper metal, cuprous chloride, cupric sulfate, and other copper salts were used most commonly as catalysts for such reactions however, the superior catalytic activity of rhodium(ll) acetate dimer has recently become well-established.3 This commercially available rhodium salt exhibits high catalytic activity for the decomposition of diazo ketones even at very low catalyst substrate ratios (< 1%) and is less capricious than the old copper catalysts. We recommend the use of rhodium(ll) acetate dimer in preference to copper catalysts in all diazo ketone decomposition reactions. The present synthesis describes a typical cyclization procedure. [Pg.184]

A similar reaction of ylide 200 can also be carried out under thermal conditions or in the presence of catalytic amounts of Cu(acac)2 [143]. The carbenoid reactions of iodonium ylides can also be effectively catalyzed by rhodium(II) complexes [144, 145]. The product composition in the rhodium(II) catalyzed reactions of iodonium ylides was found to be identical to that of the corresponding diazo compounds, which indicates that the mechanism of both processes is similar and involves metallocarbenes as key intermediates as it has been unequivocally established for the diazo decomposition [144]. [Pg.131]

The first stibonium ylide to be isolated was triphenylstibonium tetraphenylcyclopen-tadienylide, obtained by thermal decomposition of diazotetraphenylcyclopentadiene in the presence of triphenylstibine. A problem which arose initially in the preparation of stibonium ylides from thermal decomposition reactions of diazo compounds was that the... [Pg.682]

Waters, W. A. Decomposition reactions of the aromatic diazo compounds. X. Mechanism of the Sandmeyer reaction. J. Chem. Soc., Abstracts 1942, 266-270. [Pg.669]

Thermolysis of diazirines also leads to carbenes. In contrast to decomposition reactions of linear diazo compounds, there is no problem of dis-... [Pg.100]

See other pages where Diazo decomposition reaction is mentioned: [Pg.353]    [Pg.469]    [Pg.19]    [Pg.353]    [Pg.469]    [Pg.19]    [Pg.427]    [Pg.111]    [Pg.79]    [Pg.80]    [Pg.79]    [Pg.14]    [Pg.345]    [Pg.436]    [Pg.573]    [Pg.171]    [Pg.659]    [Pg.223]    [Pg.268]    [Pg.188]    [Pg.135]    [Pg.659]    [Pg.151]    [Pg.117]    [Pg.1800]    [Pg.77]    [Pg.135]    [Pg.24]   
See also in sourсe #XX -- [ Pg.217 ]



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Diazo reaction

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