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Metal! acycles

Oxidative cleavage of P-aminoacyl complexes can yield P-amino acid derivatives (320,321). The rhodium(I)-catalyzed carbonylation of substituted aziridines leads to P-lactams, presumably also via a P-aminoacyl—metal acyclic compound as intermediate. The substituent in the aziridine must have 71 or n electrons for coordination with the rhodium (322,323). [Pg.10]

Each section of this chapter is subdivided according to the type of species being metalated acyclic, carbocyclic or heterocyclic. The site of metalation is the criterion for classifying each species. Thus, the ortho metalation of anisole is classified as a carbocyclic system, whereas metalation of the N-methyl... [Pg.459]

Fortunately, the use of lithiated hydrazones derived from (S)- or ( )-l-amino-2-methoxymethylpyiro-lidine (SAMP or RAMP) as nucleophiles for asymmetric alkylations have provided a solution to the problems described above with metallated acyclic ketimines and aldimines. Lithiated SAMP or RAMP hydrazones of cyclic ketones are also alkylated in high yields. A major advantage of these chiral hydrazones is that their derivatives of aldehydes, acyclic and cyclic ketones all yield mainly ( )cc-. (Z)cN-Iithiated species on deprotonation with LDA in ethereal solvents under kinetic control. The ( )cc-configuration obtains as a result of the minimization of steric interactions in the usual closed transition... [Pg.37]

In this context, the synthesis of a new family of Pt six-membered metal-acyclic NHC complexes was reported.This new platinacyclic complex was then used in an enantioselective 1,6-enyne cycloisomerization to afford, under mild conditions, the expected fused azabicycles in very high enantiomeric excesses and good to excellent yields (Equation (10.34)). [Pg.309]

Sheppard N and De La Cruz C 1996 Vibrational spectra of hydrocarbons adsorbed on metals. Part I. Introductory principles, ethylene, and higher acyclic alkenesAdv. Catal. 41 1-112... [Pg.1795]

Oxygen-containing azoles are readily reduced, usually with ring scission. Only acyclic products have been reported from the reductions with complex metal hydrides of oxazoles (e.g. 209 210), isoxazoles (e.g. 211 212), benzoxazoles (e.g. 213 214) and benzoxazolinones (e.g. 215, 216->214). Reductions of 1,2,4-oxadiazoles always involve ring scission. Lithium aluminum hydride breaks the C—O bond in the ring Scheme 19) 76AHC(20)65>. [Pg.68]

Coupling reactions and related fluoroalkylations with polytTuoioalkyl halides are induced by vanous reagents, among them metals such as copper and zinc, or by an electrochemical cell. More recently, examples of carbon-carbon bond forma tion by coupling of unsaturated fluorides have been reported Both acyclic and cyclic fluoroolefins of the type (Rp)2C=CFRp undergo reducUve dimerization on treatment with phosphines [42] (equation 33) The reaction shown in equation 33 IS also accompbshed electrocheimcally but less cleanly [43]... [Pg.304]

The study of 8-N compounds is one of the most active areas of current inorganic research many novel cyclic and acyclic compounds are being prepared which have unusual stmctures and which pose considerable problems in terms of simple bonding theory. The discoveiy in 1975 that the polymer (8N)jc is a metal whose conductivity increases with decrease in... [Pg.721]

The reactions of nitrones constitute the absolute majority of metal-catalyzed asymmetric 1,3-dipolar cycloaddition reactions. Boron, aluminum, titanium, copper and palladium catalysts have been tested for the inverse electron-demand 1,3-dipolar cycloaddition reaction of nitrones with electron-rich alkenes. Fair enantioselectivities of up to 79% ee were obtained with oxazaborolidinone catalysts. However, the AlMe-3,3 -Ar-BINOL complexes proved to be superior for reactions of both acyclic and cyclic nitrones and more than >99% ee was obtained in some reactions. The Cu(OTf)2-BOX catalyst was efficient for reactions of the glyoxylate-derived nitrones with vinyl ethers and enantioselectivities of up to 93% ee were obtained. [Pg.244]

Acyclic diene molecules are capable of undergoing intramolecular and intermolec-ular reactions in the presence of certain transition metal catalysts molybdenum alkylidene and ruthenium carbene complexes, for example [50, 51]. The intramolecular reaction, called ring-closing olefin metathesis (RCM), affords cyclic compounds, while the intermolecular reaction, called acyclic diene metathesis (ADMET) polymerization, provides oligomers and polymers. Alteration of the dilution of the reaction mixture can to some extent control the intrinsic competition between RCM and ADMET. [Pg.328]

Addition of the metalated civ-epoxysilane to acyclic or cyclic ketones generally proceeded with higher diastereoselectivity than the addition to aldehydes. A low diastcreomeric ratio (60 40) was only observed upon addition to 4-methylcyclohexanone13. [Pg.126]

The configurational course depends on the enolatc configuration and the metal ion which determines whether a cyclic (e.g., Zimmerman-Traxler type) or an acyclic transition state is traversed. At present the following transition state models have been proposed. [Pg.758]

For the catalyst system WCU-CsHbAICIs-CzHsOH, Calderon et al. (3, 22, 46) also proposed a kinetic scheme in which one metal atom, as the active center, is involved. According to this scheme, which was applied by Calderon to both acyclic and cyclic alkenes, the product molecules do not leave the complex in pairs. Rather, after each transalkylidenation step an exchange step occurs, in which one coordinated double bond is exchanged for the double bond of an incoming molecule. In this model the decomposition of the complex that is formed in the transalkylidenation step is specified, whereas in the models discussed earlier it is assumed that the decom-plexation steps, or the desorption steps, are kinetically not significant. [Pg.164]

Direct treatment of TIPS enol ethers of a variety of cyclic and acyclic ketones with the strong-base combination of n-BuLi/KO-t-Bu leads to /3-ketosilanes (2) after aqueous work-up. In contrast with the earlier method, this rearrangement appears to proceed through allylic, rather than vinylic, metallation, since enol ethers lacking an allylic a-proton are unreactive. [Pg.133]

A direct attack of nucleophiles on the sulfur atom of the sulfone or sulfoxide group in acyclic or large-ring sulfones and sulfoxides is rather rare, or unknown, excluding metal hydride reductions and/or reductive deoxygenations. The situation is completely different in the three-membered ring systems. [Pg.405]

Whereas acyclic sulfoxides form complexes with various metal salts, thiirane oxides react with copper(II) chloride or bromide163 in benzene at room temperature to give the thiolsulfonate 146a. In alcoholic solution below 0 °C the major products are sulfinates (149). Similar results are obtained in the reaction of thiirane oxides with ethanesulfinyl chloride163 as summarized in equation 60. [Pg.424]

Most of the above reactions are used for the cleavage of aryl sulphones. Recently, a note has appeared109 in which the use of potassium metal dispersed ultrasonically in toluene to cleave saturated cyclic sulphones is described. Addition of iodomethane permits the isolation of acyclic alkyl methyl sulphones (as outlined in equation (44)). [Pg.945]


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See also in sourсe #XX -- [ Pg.497 ]




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Acyclic metalation routes

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Acyclic unsaturated ligands metal complexes

Metallation acyclic systems

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