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Allylic derivatives reactions

Formation of AllylEsters. AEyl esters are formed by reaction of aEyl chloride with sodium salts of appropriate acids under conditions of controEed pH. Esters of the lower alkanoic, alkenoic, alkanedioic, cycloalkanoic, benzenecarboxyEc, alkylbenzene carboxyEc, and aromatic dicarboxyEc acids maybe prepared in this manner (25). More information can be found about the reactivity of aEyl compounds (see Allyl alcohol and mono allyl derivatives). [Pg.33]

Bromination of the diphenyl indole derivative 316 with bromine in DMF or trimethylammonium bromide afforded the 7-bromo derivative 317. Reaction with allyl bromide or its derivatives gave A-allyl derivatives 318 that upon cyclization with palladium acetate gave 7,9-dimethoxy-l,2-diphenylpyrrolo[3,2,l-// ]quinoline derivatives 319 (92T7601) (Scheme 57). [Pg.111]

The addition of carbene to a 3-(halopropyl)-5//-dibenz[7>./]azepine 5 (X = Cl, Br) in a Simmons—Smith reaction is more complex and results in a mixture of the tetracycle 6 (6%), its cyclopropano derivative 7 (48 %), the 5-allyl derivative 8 and the (cyclopropyl)methyl compound 9, the latter two products in a combined yield of 12%.31... [Pg.289]

The reactivity of T8[OSiMe2H]g is dominated by its capacity to undergo hydrosilylation reactions with a wide variety of vinyl and allyl derivatives (Figure 30) that have subsequently mainly been used as precursors to polymers and nanocomposites by the introduction of reactive terminating functions as shown in Table 19. For example, T8[OSiMe2H]g has been modified with allyglycidyl ether, epoxy-5-hexene, and 1,2-cyclohexene-epoxide to give epoxy-terminated FOSS. These have then been treated with m-phenylenediamine, with polyamic acids or... [Pg.53]

Perrier RJ (2001) Substitution-with-Allylic-Rearrangement Reactions of Glycal Derivatives. 215 153-175... [Pg.233]

The catalytic enantioselective desymmetrization of meso compounds is a powerful tool for the construction of enantiomerically enriched functionalized products." Meso cyclic allylic diol derivatives are challenging substrates for the asymmetric allylic substitution reaction owing to the potential competition of several reaction pathways. In particular, S 2 and 5n2 substitutions can occur, and both with either retention or inversion of the stereochemistry. In the... [Pg.51]

Scheme 10.17 illustrates allylation by reaction of radical intermediates with allyl stannanes. The first entry uses a carbohydrate-derived xanthate as the radical source. The addition in this case is highly stereoselective because the shape of the bicyclic ring system provides a steric bias. In Entry 2, a primary phenylthiocar-bonate ester is used as the radical source. In Entry 3, the allyl group is introduced at a rather congested carbon. The reaction is completely stereoselective, presumably because of steric features of the tricyclic system. In Entry 4, a primary selenide serves as the radical source. Entry 5 involves a tandem alkylation-allylation with triethylboron generating the ethyl radical that initiates the reaction. This reaction was done in the presence of a Lewis acid, but lanthanide salts also give good results. [Pg.965]

Dialkylindolines and 1,3-dialkylindoles are formed in poor yield (<10%) from the reaction of ethyl- or phenymagnesium bromide with 2-chloro-N-methyl-N-allylaniline in the presence of catalytic quantities of (bistriphenylphosphine)nickel dichloride.72 In a modification of this procedure, the allyl derivatives can be converted by stoichiometric amounts of tetrakis(triphenylphosphine)nickel into 1,3-dialkylindoles in moderate yield72 (Scheme 43) an initial process of oxidative addition and ensuing cyclization of arylnickel intermediates is thought to occur. In contrast to the nickel system,72 it has proved possible to achieve the indole synthesis by means of catalytic quantities of palladium acetate.73 It is preferable to use... [Pg.340]

Tris(oxazoline) complexes have also been investigated as ligands in the allylic oxidation reaction. Katsuki and co-workers (116) observed that Cu(OTf)2 com-plexed to the tris(oxazoline) 160 is a more selective catalyst than one derived from CuOTf, Eq. 99, in direct contrast to results observed with bis(oxazohnes) or pyridyl bis(oxazohnes) as ligands (cf. Section III.A.3). When the reaction is conducted at -20°C, the cyclopentenyl benzoate is delivered in 88% ee albeit in only 11% yield after 111 h. Larger cycloalkenes are less selective (cyclohexene 56% ee, cyclohep-tene 14% ee, cyclooctene 54% ee). [Pg.62]

The allylic HYCRAM derivative was subsequently modified by insertion of a standard amino acid between the aminomethyl resin and the hydroxy butenoic acid moiety. Using this allylic anchor, the resin-linked, glycosylated HIV peptide T-derivative 164 was synthesized by application of Fmoc amino protection and sidechain protection with lert-butyl groups. The lac-tosamine peptide T (165) could be released from the resin by application of the palladium(0)-catalyzed allyl-transfer reaction to V-methyl aniline as the allyl acceptor. [Pg.301]

RhClCO(dppp) 2] for the sequential construction of an enyne precursor, starting from a malonic acid derivative and allylic acetate, which was converted in situ to the cycloaddition product with excellent yields. Obviously, the Pd complex catalyzes the allylic substitution reaction, while the rhodium catalyst is responsible for the PKR (Eq. 6). [Pg.178]

The synthesis of various allyl derivatives of di-i-butyl iminodicarboxylate 21 from its lithium salt and allyl acetates under Pd(0) catalysis has been described. Rearrangements have been observed in some reactions, e.g. equation 19. The products are cleaved to t-butoxycarbonylamines by trifluoroacetic acid at room temperature dilute hydrochloric acid removes the second protecting group54. [Pg.542]

Allyl derivatives of a range of cyanhydrins have been obtained from the liquiddiquid two-phase reaction catalysed by Aliquat at 0°C [17]. Yields range from ca. 25% to 45%. [Pg.70]

The reaction of methylenesulphones with allyl halides in the presence of quaternary ammonium salts produces the 1-allyl derivatives [52], unlike the corresponding reaction in the absence of the catalyst in which the SN- product is formed (Scheme 6.5). In contrast, alkylation of resonance stabilized anions derived from allyl sulphones produces complex mixtures [51] (Scheme 6.6). Encumbered allyl sulphones (e.g. 2-methylprop-2-enyl sulphones) tend to give the normal monoalkyl-ated products. Methylene groups, which are activated by two benzenesulphonyl substituents, are readily monoalkylated hydride reduction leads to the dithioacetal and subsequent hydrolysis affords the aldehyde [61]. [Pg.243]

In a similar manner, Jt-allyl complexes of manganese, iron, and molybdenum carbonyls have been obtained from the corresponding metal carbonyl halides [5], In the case of the reaction of dicarbonyl(r 5-cyclopentadienyl)molybdenum bromide with allyl bromide, the c-allyl derivative is obtained in 75% yield in dichloromethane, but the Jt-allyl complex is the sole product (95%), when the reaction is conducted in a watenbenzene two-phase system. Similar solvent effects are observed in the corresponding reaction of the iron compound. As with the cobalt tetracarbonyl anion, it is... [Pg.365]

Molybdenum trioxide acrolein formation, 30 152 allyl iodide reactions, 30 150 azopropene reactions, 30 150 Molybdenyl compounds, M=0 bond, 31 125 N-Monoalkylation, aniline derivatives, 38 249-252... [Pg.148]


See other pages where Allylic derivatives reactions is mentioned: [Pg.250]    [Pg.250]    [Pg.23]    [Pg.35]    [Pg.175]    [Pg.261]    [Pg.22]    [Pg.186]    [Pg.415]    [Pg.452]    [Pg.22]    [Pg.207]    [Pg.8]    [Pg.40]    [Pg.51]    [Pg.1337]    [Pg.197]    [Pg.83]    [Pg.398]    [Pg.88]    [Pg.93]    [Pg.214]    [Pg.15]    [Pg.96]    [Pg.296]    [Pg.78]    [Pg.627]   
See also in sourсe #XX -- [ Pg.107 ]




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5-Allyl-derivatives

Alkene derivatives allylation reactions

Alkene derivatives allylic reaction

Allylic derivatives

Allylic derivatives carbon monoxide reactions

Allylic derivatives carbon nucleophile reactions

Allylic derivatives nitrogen substitution reactions

Allylic derivatives nucleophilic substitution, Tsuji-Trost reaction

Allylic substitution reactions derivatives

Asymmetric ligands allylic derivatives, substitution reactions, chiral

Asymmetric reactions allyl amine derivatives

Asymmetric reactions cyclic allyl alcohol derivatives

Asymmetric reactions nucleophilic substitution, allylic derivatives

Butyraldehyde, 3-methoxy a-alkoxyaldimines derived from reaction with allyl organometallic compounds

Chiral ligands allylic derivatives, substitution reactions

Cycloaddition reactions allylic derivatives

Cycloaddition reactions, allylic derivatives 3 + 4]/ cycloadditions

Cycloaddition reactions, allylic derivatives mechanisms

Electrophilic reactions allylic derivatives

Elimination reactions allylic derivatives

Ethylamine, phenylaldimines derived from reaction with allyl organometallic compounds

Heck reaction allylic/arylic derivatives

Homolytic substitution reactions allylic derivatives

Oxidation reactions allylic derivatives

Propionaldehyde, 2- methoxyaldimine derivatives reaction with allyl organometallic compounds

Reaction of Allyl Organocopper Reagents Derived from CuCN-2LiBr with Benzoyl Chloride

Reactions of Enines Derived from Allylic Substitution Products

Tsuji-Trost reaction allylic derivatives

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