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1,2-imine addition

Diastereoselective radical additions to glyoxylic oxime ethers are well established however, only one recent report describes attempted enantioselective additions using chiral Lewis acids [26], It was found that bisoxazoline ligand 9 provided the best results as illustrated in Eq. (18) and Table 3. [Pg.473]

MeOgC NOBn Lewis acid. 9, f-PrI Me02C NHOBn H [Pg.473]

Recently, results describing an attempted enantioselective Kharasch reaction were reported (Eq. 19) [27]. [Pg.473]

Previously, examples of chiral Lewis acid coordination of either the radical or radical acceptor involved coordination to Lewis basic sites, typically oxygen or nitrogen. However, certain transition metals are also capable of coordination to al-kenes and, if complexed to a chiral ligand, can also afford chiral addition products. This has been illustrated in the enantioselective atom transfer additions of alkane and arene-sulfonyl chlorides and bromotrichloromethanes to olefins using chiral ruthenium complexes. These reactions are thought to follow a radical redox chain process detailed in Eq. (20). [Pg.474]

The initial ruthenium(II) catalyst 66 abstracts a halogen (either chlorine or bromine) from the substrate forming a ruthenium(III) species 67. This is followed by pi complexation (68), radical addition (69) and halogen atom transfer to form the desired product (70). Starting from 65a, enantioselectivities of the resulting product 70a ranged from 20 to 40% ee with excellent chemical yields [28]. Reactions with a slightly different substrate bromotrichloromethane (65b) provided 70b in 32% ee, and a poor yield of 26% [29]. [Pg.474]


Addition of ketenes to imines addition of enamines to isocyanates... [Pg.1680]

Formation of imines (addition of amines to aldehydes or ketones)... [Pg.505]

The majority of chemical commodities (plastics, foams, pharmaceuticals, agrochemicals) are made from rapidly depleting petrochemical feedstocks. Consequently, there is a growing need to develop catalytic methods for the direct manufacture of chemical products from abundant renewable resources in the absence of stoichiometric byproducts [1], In the specific case of carbonyl and imine addition, a departure from the use of premetallated nucleophiles represents a particularly important focus. Progress in this area will depend largely upon the discovery of new chemical reactivity. [Pg.108]

Meanwhile, chiral (thio)urea catalysts have been employed for a variety of imine addition reactions consisting of Mannich, aza-Henry, Pictet-Spengler, and hydrophosphonylation reactions. ... [Pg.332]

In enantioselective enamine catalysis, the enamine can control the approach of the electrophile either by the steric bulk of the enamine or by directing the electrophile with an activating group. As can be readily observed with relatively unreactive electrophiles, such as aldehydes, ketones or imines, additional assistance for catalysis can be provided by suitably positioned hydrogen bond donors and/or other acids (Scheme 6) [46]. [Pg.35]

The directing effect of the amide group can then be used a second time in the lateral lithiation of 503 to give an organolithium 507 which adds to the imine 508 in a stereoselective manner, probably under thermodynamic control (imine additions of laterally lithiated amides appear to be reversible). Warming the reaction mixture to room temperature leads to a mixture of 509 and some of the (ultimately required) cyclized product... [Pg.602]

Imidates, rearrangement of, 14, 1 Imines, additions of allyl, allenyl, propargyl stannanes, 64, 1 additions of cyanide, 70, 1 as dienophiles, 65, 2 synthesis, 70, 1 Iminium ions, 39, 2 65, 2 Imino Diels-Alder reactions, 65, 2 Indoles, by Nenitzescu reaction, 20, 3 by reaction with TosMIC, 57, 3 Ionic hydrogenation, 71, 1 Isocyanides, in the Passerini reaction, 65, 1... [Pg.590]

The chiral enolate-imine addition methodology was examined in detail (Thiruvengadam et al., 1999). Enolate formation proceeds to completion within an hour at temperatures from — 30 to 0°C with either 1 equiv. TiCl4 or TiClaO-iPr (preformed or prepared in the presence of substrate by addition of TiCl4 and followed by a third of an equivalent Ti(0-iPr)4 and two equivalents of a tertiary amine base). Unlike the aldol process with the same titanium enolate, the nature of the tertiary amine base had no effect on the diaster-eoselectivity. The diastereoselectivity is maximized by careful control of the internal temperature to below — 20°C during the imine addition (2 equiv.) as well as during the acetic acid quench. The purity of the crude 2-amino carboxamide derivatives (17a or... [Pg.191]

In the course of examining the CAI effect of conformational restriction of the C3-side-chain, intermediate 24 was prepared. Shankar and co-workers (Shankar et al., 1996) demonstrated that 10, a key intermediate in the research synthesis could be accessed by Wacker oxidation of olefin 24 (Scheme 13.7). Additionally, an alternative chiral variant of the well-precedented addition of zinc enolates to imines was demonstrated. Treatment of the bromoacetate 25, derived from 8-phenylmenthol with zinc and sonication followed by imine addition afforded 26 in 55% yield with greater than 99% de. Ethyl magnesium promoted ring-closure followed by C3 alkylation with 28, intercepts the previously demonstrated route through formation of olefin 24 (Shankar et al., 1996). [Pg.193]

Since N-nitrosoimmonium ions seem to be involved in the hydrolysis of a-acetates, it should be possible to isolate such species as stable salts. For this purpose, we selected a system such as XVII in which the phenyl group should provide further stabilization of such a carbonium ion. After the reaction of nitrosyl chloride with the corresponding imines, addition of antimony pentachloride resulted in the precipitation of pale yellow solids these could be isolated and stored under nitrogen for several days at room temperature. ... [Pg.67]

So far, attempts to expand the substrate scope further by modifying the aryl transfer agent have remained unsuccessful. Thus, imine addition reactions with arylzinc species other than the one prepared in situ by mixing diphenylzinc and diethylzinc still deserve attention, and will be developed in the near future. [Pg.191]

Addition of ketenes to imines addition of enamines to isocyanates 8-17 Reaction between cyclic ketones and hydrazoic acid (Schmidt)... [Pg.1292]

The diazomethane-imine addition can be interpreted in terms of the FMO theory.51 Calculations on diazoalkanes and benzylideneanilines lead to two orbital interactions, a HOMOdiazoalkane-LUMOimine and a LUMOdiazoalkane-HOMOiminc, but regardless of which one is the favored interaction, the coefficients of the atomic orbitals of the bonding atoms favor the formation of a 1,2,3- and not a 1,2,4-triazoline.338 And indeed, the 1,2,4-triazolines proposed by Mustafa327 have never been observed. [Pg.278]

The cycloaddition of diazomethane to SchifT bases from heterocyclic aldehydes and anilines provides a useful route to heterocyclic substituted triazolines. Unlike olefins bearing heterocyclic substituents, the heterocyclic imines can be obtained readily by reaction of the appropriate aldehyde and amine thus the diazomethane-imine addition has greater scope than the olefin-azide reaction. NMR spectroscopic studies of the orientation of addition are in accord with previously reported mechanistic considerations (see, e.g., Scheme 93).329 In addition to the influence of the N-aryl group, the electron-withdrawing power of the heterocyclic substituent on the Schiff-base carbon also has a substantial effect on imine reactivity, in the order 2-quinolyl 2-, 3-, or 4-pyridyl > phenyl > 2-thienyl as 2-furyl.329... [Pg.282]

When dihydro-1,3-benzothiazine 203 was allowed to react with KF in DMF (or NaOMe in MeOH), an open ring tautomeric isomer 204 was formed. When 2-bromoacetophenone 169 (R = H) is present in the reaction medium, a mixture of two diastereoisomers of 206 was obtained (75%) after enolate/imine addition of intermediate 205 with a slight excess of the m-isomer 206a over the trans-isomer 206b (Scheme 35). The same result was obtained by a synthesis from [6+1] fragments, reported in the next section <1995TL753>. [Pg.281]

Scheme 12.31. Synthesis of decarbamoylsaxitoxin using a three-component thiourea formation/imine addition, by Hong and Kishi [110]. Scheme 12.31. Synthesis of decarbamoylsaxitoxin using a three-component thiourea formation/imine addition, by Hong and Kishi [110].
Bis(phosphoranimine) ligands, chromium complexes, 5, 359 Bis(pinacolato)diboranes activated alkene additions, 10, 731—732 for alkyl group functionalization, 10, 110 alkyne additions, 10, 728 allene additions, 10, 730 carbenoid additions, 10, 733 diazoalkane additions, 10, 733 imine additions, 10, 733 methylenecyclopropane additions, 10, 733 Bisporphyrins, in organometallic synthesis, 1, 71 Bis(pyrazol-l-yl)borane acetyl complexes, with iron, 6, 88 Bis(pyrazolyl)borates, in platinum(II) complexes, 8, 503 Bispyrazolyl-methane rhodium complex, preparation, 7, 185 Bis(pyrazolyl)methanes, in platinum(II) complexes, 8, 503 Bis(3-pyrazolyl)nickel complexes, preparation, 8, 80-81 Bis(2-pyridyl)amines... [Pg.66]

Starting from the salts of the isomeric 1,2,4- and l,2,3-thiadiazol-5-imines, addition of aryldiazonium salts and base affords respectively fused thiapentaazapentalenes 99 and 178 that contain a 1,2,3,4-thiatriazole ring (Scheme 42) (see also Section 6.09.7.2) <1993JHC349, 1994J(P1)2895>. [Pg.479]

Cyclization of halogenoaryl-substituted /3-lactams can be mediated by palladium(n) derivatives. The formation of the lactam from a ketene-imine addition and subsequent cyclization of the product can be carried out as a one-pot process. As an example, in situ generation of the ketene from the acid chloride and formation of the /3-lactam followed by addition of palladium(ll) acetate, triphenylphosphine, and thalium carbonate gave 495 in 54% yield (Equation 79) <1995TL9053>. [Pg.304]

The amino acid synthesis from Strecker has been known since 1850 [25]. Stereoselective versions of this synthesis start with chiral amines, which are condensed with carbonyl compounds to form imines. Addition of hydrogen cyanide and subsequent hydrolysis of the amino nitriles yields the amino acids. When ketones are used for the condensation, a-alkylated amino acids are obtained in high yields and optical purities... [Pg.28]


See other pages where 1,2-imine addition is mentioned: [Pg.764]    [Pg.383]    [Pg.9]    [Pg.137]    [Pg.180]    [Pg.2]    [Pg.107]    [Pg.109]    [Pg.110]    [Pg.111]    [Pg.130]    [Pg.290]    [Pg.188]    [Pg.192]    [Pg.699]    [Pg.229]    [Pg.265]    [Pg.932]    [Pg.998]    [Pg.2]   
See also in sourсe #XX -- [ Pg.129 , Pg.130 , Pg.131 ]

See also in sourсe #XX -- [ Pg.473 ]




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1,2-addition to aldehydes and imines

Achiral imines additions

Addition Reactions of Imines and Iminium Ions

Addition of Enolates to Imines

Addition of Organoboronic Acids to Aldehydes and Imines

Addition of Organometallic Reagents to Imines

Addition of terminal alkynes to imines

Addition reactions imines

Addition reactions to imines

Addition to imines

Addition to imines, iminium salts and related compounds

Additions to Imine Derivatives

Additions to Imine Derivatives Bearing N-Bound Auxiliaries

Additions to Imines and Iminium Ions

Alkylations and Additions of Other C-Nucleophiles to Imines

Asymmetric Activation of Conjugate Addition to Imines

Asymmetric Addition Reactions to Imines

Asymmetric Addition of Cyanide and Isocyanide to Aldehydes or Imines

Asymmetric Addition to Imine Derivatives

Asymmetric Addition to Imines

Asymmetric Conjugate Addition to Enones and Imines

Asymmetric Conjugate Addition with Carbonyls and Imines

Camphor imines additions

Carbene Addition to Imines

Carbene Additions to Aldehydes and Imines

Carbon-phosphorus bond formation imine addition

Carbonyl compounds, addition reactions imine formation

Carbonyl compounds, addition reactions substituted imine formation

Catalytic Asymmetric Nucleophilic Addition to Achiral Imines

Catalytic Enantioselective Additions of Alkylzinc Reagents to Imines

Catalytic enantioselective addition to imin

Chiral auxiliaries imine additions

Conjugate addition chiral imines

Cyanide addition to imines

Diamines, from addition imines

Diastereoselectivity imine additions

Diethylzinc addition to imines

Elimination—addition imine-forming

Enantioselective Alkylations and Additions of Other C -nucleophiles to Imines

Enantioselective imine additions

Ethers, enol, addition imines

Imine additions 1.2- dicarbonyls

Imine additions Diels-Alder reaction

Imine additions Michael reaction

Imine additions aldol reaction

Imine additions asymmetric amination reaction

Imine additions catalyst preparation

Imine additions hetero-Diels-Alder reaction

Imine additions protic solvents

Imine compounds Michael additions

Imine formation addition-elimination

Imine ligands diethylzinc additions

Imine nucleophilic addition

Imines Friedel-Crafts addition

Imines Michael-type addition

Imines acetylene addition

Imines asymmetric additions

Imines asymmetric conjugate addition

Imines conjugate additions

Imines diastereoselective addition reactions

Imines diastereoselective additions

Imines enantioselective addition

Imines from nucleophilic addition

Imines in addition of Grignard reagents

Imines nucleophilic addition

Imines nucleophilic addition reactions

Imines oxidative addition

Imines phosphorus nucleophile addition

Imines radical additions

Imines sparteine-mediated addition

Imines stereoselective additions

Imines, additions

Imines, additions

Imines, dialkylzinc addition

Imines, rhodium-catalyzed 1,2-addition

Ketene-imine addition

Lewis acids imine additions

Metal complex formation in carbonyl and imine additions

Michael addition, acidic chiral imines

Michael additions imines

Naphthalene-1,4-imines additions

Nucleophiles imine addition

Nucleophilic Addition of Amines Imine and Enamine Formation

Nucleophilic addition to imines

Nucleophillic Additions to Carbonyl and Imine Compounds

Organometallics addition, imines

Phosphorus nucleophiles imine addition

Radical addition to imines

Silyl ketene acetals diastereoselective addition to imines

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