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Cycloadditions to imines

Dichloroneopentylsilene is formed in situ by reaction of trichlorovinylsilane with LirBu [1], The [2+2] cycloaddition to imines yields Si-dichloro functionalized 2-silaazetidines in a preparative scale [2], When aldimines are used as trapping agents for the silene, the resulting SiN-four membered ring compounds are isolated as syn/anti-isomers (syn/anti 2/1). [Pg.115]

As far as catalytic enantioselective cycloadditions to imines are concerned, the only non-Zr-catalyzed process is a Cu-catalyzed protocol reported by Jorgensen (Eq. 6.22) [112]. It should be noted, however, that high enantioselectivities are attained only with highly substituted versions of the Danishefsky diene. [Pg.216]

Chiral phosphoric acids mediate the enantioselective formation of C-C, C-H, C-0, C-N, and C-P bonds. A variety of 1,2-additions and cycloadditions to imines have been reported. Furthermore, the concept of the electrophilic activation of imines by means of phosphates has been extended to other compounds, though only a few examples are known. The scope of phosphoric acid catalysis is broad, but limited to reactive substrates. In contrast, chiral A-triflyl phosphoramides are more acidic and were designed to activate less reactive substrates. Asymmetric formations of C-C, C-H, C-0, as well as C-N bonds have been established. a,P-Unsaturated carbonyl compounds undergo 1,4-additions or cycloadditions in the presence of A-triflyl phosphoramides. Moreover, isolated examples of other substrates can be electrophil-ically activated for a nucleophilic attack. Chiral dicarboxylic acids have also found utility as specific acid catalysts of selected asymmetric transformations. [Pg.454]

Benzoylsulfene, generated from PhCOCH2SC>2Cl, undergoes cycloaddition to imines to give 1,4,3-oxathiazines (Scheme 19) (70Ba3543). [Pg.1077]

Lewis acids, especially rare earth triflates, are efficient catalysts of 1,3-dipolar (g) cycloadditions to imines, Ar-1CH=N-Ar2.67... [Pg.9]

N-Alkyl- and N-aryl-ketenimines are poor electrophilic partners and do not react with benzylidene-aniline or dicyclohexylcarbodiimide." The introduction of an electron-withdrawing substituent (tosyl or cyano ) on the nitrogen atom enhances the electrophilic character of the cumulene and cycloadditions to imines occur under very mild conditions (Scheme 42). In most cases, the reactions are trans stereoselective. [Pg.113]

The bis-(P-naphthyl)pyrrolidinyl-containing ligand also finds use to induce chirality in the trimethylenemethane cycloaddition to imines, which leads to 2-substituted... [Pg.27]

The preparation of the quinoline system by pericyclic reactions is less important than the previous syntheses. Some cyclization/elimination reactions of iV-phenylimines 95 and 96 with alkynes, enol ethers or enamines are of preparative interest. Although they correspond to [4+2] cycloadditions, they are likely to proceed by SeAt mechanisms and are usually catalysed by Lewis acids. In the enolether cycloaddition to imines 95 ytterbium(III)triflate proved to be particularly effective [104]. [Pg.333]

Furthermore, there has been recent progress extending the [2 + 2] cycloaddition to imines, thus providing access to /8-lactams (eq 18). 2... [Pg.648]

Allylic phosphates are used for carbonylation in the presence of amines under pressure. Carbonylation of diethyl neryl phosphate (389) affords ethyl homonerate (390), maintaining the geometric integrity of the double bond[244]. The carbonylation of allyl phosphate in the presence of the imine 392 affords the /3-lactam 393. The reaction may be explained by the formation of the ketene 391 from the acyl phosphate, and its stereoselective (2 + 2] cycloaddition to the imine 392 to give the /3-lactam 393(247],... [Pg.342]

The interaction of acid chlorides (167 X = Cl) with imines in the presence of bases such as triethylamine may involve prior formation of a ketene followed by cycloaddition to the imine, but in many cases it is considered to involve interaction of the imine with the acid chloride to give an immonium ion (168). This is then cyclized by deprotonation under the influence of the base. Clearly, the distinction between these routes is a rather fine one and the mechanism involved in a particular case may well depend on the reactants and the timing of mixing. Particularly important acid chlorides are azidoacetyl chloride and phthalimidoacetyl chloride, which provide access to /3-lactams with a nitrogen substituent in the 3-position as found in the penicillins and cephalosporins. [Pg.260]

There is some evidence for the formation of unstable benzazetidines from [2 + 2] cycloaddition of benzyne to imines (75BCJ1063). A novel formation of a benzazetidine is reported in the solvolysis of the exo iV-chloro compound (297). Neighbouring group participation by the benzene ring leads to the cation (298), which is intercepted by methanol to give the benzazetidine (299) (81CC1028). [Pg.277]

Substituted TMMs also participate smoothly in imine cycloaddition to generate more structurally elaborate pyrrolidines. The regioselectivity of these reactions is similar to that of olefin addition, although subsequent isomerization of the initial adduct is often observed. For example, the cyano system produced the thermody-... [Pg.74]

Dipolar [3 + 2] cycloadditions are one of the most important reactions for the formation of five-membered rings [68]. The 1,3-dipolar cycloaddition reaction is frequently utihzed to obtain highly substituted pyrroHdines starting from imines and alkenes. Imines 98, obtained from a-amino esters and nitroalkenes 99, are mixed together in an open vessel microwave reactor to undergo 1,3-dipolar cycloaddition to produce highly substituted nitroprolines esters 101 (Scheme 35) [69]. Imines derived from a-aminoesters are thermally isomerized by microwave irradiation to azomethine yhdes 100,... [Pg.232]

Benzodiazepin-2-ones are converted efficiently into the 3-amino derivatives by reaction with triisopropylbenzenesulfonyl (trisyl) azide followed by reduction <96TL6685>. Imines from these amines undergo thermal or lithium catalysed cycloaddition to dipolarophiles to yield 3-spiro-pyrrolidine derivatives <96T13455>. Thus, treatment of the imine 50 (R = naphthyl) with LiBr/DBU in the presence of methyl acrylate affords 51 in high yield. [Pg.326]

Ketenes also add to imines in 2 + 2 cycloadditions giving the important g-lactams (20). The reglochemistry is predictable as the nitrogen is the nucleophilic atom in the imine. This is true even in conjugated imine (21) which gives (22) with azidoketene. The azido group can... [Pg.397]

In 2007, a novel C2-symmetric diphenylthiophosphoramide ligand was found to be a fairly efficient chiral ligand for the Cu(I)-promoted 1,3-dipolar cycloaddition of imines and pyrrole-2,5-dione derivatives to give the corresponding adducts in moderate to good enantioselectivities and good yields (Scheme 10.14). ... [Pg.303]

Pyrazolo[l,2- ][l,2,4]triazolo[3,4-f][l,2,4]benzotriazines 485-487, containing the title substmcture, can be prepared by application of a well-known strategy using 1,3-dipolar cycloaddition to suitable azomethine imines... [Pg.434]

The benzocinnolinium azomethine imines 76 (R = Ph, OEt) react readily with DEAZD by 1,3-dipolar cycloaddition to give the corresponding tetra-zolidine derivatives (Eq. 10).124 The masked azomethine imine 77 is particularly unreactive as a 1,3-dipole, although PTAD reacts cleanly where other dipolarophiles either failed to react or gave complex mixtures (Eq. 11).125... [Pg.21]

The synthesis of nitrogen containing heterocyclic systems by photocylo-addition processes is virtually limited to examples involving [ 2 + 2] cycloaddition of imines, nitriles, and azo compounds. Successful additions are few in number and the requirements for success uncertain. The reactions do not proceed with the facility with which carbonyl containing compounds undergo photocycloaddition to alkenes to give oxetans, and various explanations have been advanced to account for this observed lack of reactivity.226... [Pg.285]

As mentioned in chapter 4.2.3, aliphatic imines are photochemically rather unreactive. When the C—N double bond is conjugated to an electron withdrawing group (e.g. carbonyl group), as in O-alkyl derivatives of succinimide and phthalimide, the reactivity increases and azetidines are obtained in cycloadditions to olefins486). A somehow similar example is the photoaddition of a 6-azauracil derivative to 2,3-dimethyl-2-butene... [Pg.65]

I.3.4.2. Intermolecular Cycloaddition at C=X or X=Y Bonds Cycloaddition reactions of nitrile oxides to double bonds containing heteroatoms are well documented. In particular, there are several reviews concerning problems both of general (289) and individual aspects. They cover reactions of nitrile oxides with cumulene structures (290), stereo- and regiocontrol of 1,3-dipolar cycloadditions of imines and nitrile oxides by metal ions (291), cycloaddition reactions of o-benzoquinones (292, 293) and aromatic seleno aldehydes as dipolarophiles in reactions with nitrile oxides (294). [Pg.45]

Some features are characteristic of reactions of nitrile oxides with 2,4,6-cyclo-hep tatrien-l-imines (8-azaheptafulvenes). 1,3-Dipolar cycloaddition to the C=N double bond of N-aryl-2,4,6-cycloheptatrien-l-imines 142 (R = Ar), affording... [Pg.47]

P-Lactams. Diketene can function as an equivalent to acetylketene, CH3C0CH=C=0, to provide 3-acetyl-p-lactams by [2 + 2]cycloaddition with imines.1 A stereoselective cycloaddition of this type can furnish a useful precursor (2) to lp-methylcarbapenems. Thus reaction of diketene with the chiral imine 1, prepared in a few steps from the readily available methyl (S)-3-hydroxy-2-meth-ylpropionate (Aldrich), can provide the desired 3,4-frpreviously developed for synthesis of the antibacterial carbapenem 4. [Pg.142]

Since then, optically active a-aminophosphonates have been obtained by a variety of methods including resolution, asymmetric phosphite additions to imine double bonds and sugar-based nitrones, condensation of optically active ureas with phosphites and aldehydes, catalytic asymmetric hydrogenation, and 1,3-dipolar cycloadditions. These approaches have been discussed in a comprehensive review by Dhawan and Redmore.9 More recent protocols involve electrophilic amination of homochiral dioxane acetals,10 alkylation of homochiral imines derived from pinanone11 and ketopinic acid,12 and alkylation of homochiral, bicyclic phosphonamides.13... [Pg.14]

Cycloaddition to give heterocycles IV. ADDITION TO IMINES AND CYANIDES... [Pg.497]

The cycloaddition of dienes to imines to form tetrahydropyridines (equation 46) has been investigated extensively40. Ordinary imines are not sufficiently reactive to add to dienes they have to be activated by the presence of electron-withdrawing substituents. Thus the triester 70 adds to cyclopentadiene under atmospheric pressure to form 71 (equation 47). The reactions with other dienes (cyclohexadiene, isoprene or 2,3-dimethylbuta-l,3-diene) require high pressures41. [Pg.497]

Terminal alkynes readily react with coordinatively unsaturated transition metal complexes to yield vinylidene complexes. If the vinylidene complex is sufficiently electrophilic, nucleophiles such as amides, alcohols or water can add to the a-carbon atom to yield heteroatom-substituted carbene complexes (Figure 2.10) [129 -135]. If the nucleophile is bound to the alkyne, intramolecular addition to the intermediate vinylidene will lead to the formation of heterocyclic carbene complexes [136-141]. Vinylidene complexes can further undergo [2 -i- 2] cycloadditions with imines, forming azetidin-2-ylidene complexes [142,143]. Cycloaddition to azines leads to the formation of pyrazolidin-3-ylidene complexes [143] (Table 2.7). [Pg.25]


See other pages where Cycloadditions to imines is mentioned: [Pg.391]    [Pg.111]    [Pg.111]    [Pg.378]    [Pg.391]    [Pg.111]    [Pg.111]    [Pg.378]    [Pg.88]    [Pg.567]    [Pg.76]    [Pg.22]    [Pg.196]    [Pg.53]    [Pg.382]    [Pg.94]    [Pg.94]    [Pg.95]    [Pg.294]   
See also in sourсe #XX -- [ Pg.860 ]




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Imines cycloadditions

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