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Epoxides condensation

Oxazolinyl epoxides. Condensation of 2-chloromethyloxazolines with ketones gives the epoxides. High stereoselectivity is induced by a chiral oxazoline. [Pg.161]

Base catalysis usually is preferred in the epoxide condensation of "neutral"polyols with potassium hydroxide being the favored catalyst although other alkali hydroxides, alkali alkoxides, and various tertiary amines may be used. [Pg.242]

Fluorinated epoxides condensed with potassium sarcosine in aqueous isopropyl alcohol at 50°C yield a fluorinated aminocarboxylate [127] ... [Pg.48]

Alkylation of Enolates (condensation of enolates with alkyl halides and epoxides) Comprehensive Organic Synthesis 1991, vol. 3, 1. [Pg.74]

Such copolymers of oxygen have been prepared from styrene, a-methylstyrene, indene, ketenes, butadiene, isoprene, l,l-diphen5iethylene, methyl methacrjiate, methyl acrylate, acrylonitrile, and vinyl chloride (44,66,109). 1,3-Dienes, such as butadiene, yield randomly distributed 1,2- and 1,4-copolymers. Oxygen pressure and olefin stmcture are important factors in these reactions for example, other products, eg, carbonyl compounds, epoxides, etc, can form at low oxygen pressures. Polymers possessing dialkyl peroxide moieties in the polymer backbone have also been prepared by base-catalyzed condensations of di(hydroxy-/ f2 -alkyl) peroxides with dibasic acid chlorides or bis(chloroformates) (110). [Pg.110]

Potassium Amides. The strong, extremely soluble, stable, and nonnucleophilic potassium amide base (42), potassium hexamethyldisilazane [40949-94-8] (KHMDS), KN [Si(CH2]2, pX = 28, has been developed and commercialized. KHMDS, ideal for regio/stereospecific deprotonation and enolization reactions for less acidic compounds, is available in both THF and toluene solutions. It has demonstrated benefits for reactions involving kinetic enolates (43), alkylation and acylation (44), Wittig reaction (45), epoxidation (46), Ireland-Claison rearrangement (47,48), isomerization (49,50), Darzen reaction (51), Dieckmann condensation (52), cyclization (53), chain and ring expansion (54,55), and elimination (56). [Pg.519]

Polyesters. Polyester is used in embedding resins for electronic components because of its low cost compared to siUcones and epoxides. Polyesters (qv) are condensation products of dicarboxyhc acids and dihydroxy alcohols the reaction provides a wide range of viscosities for polyesters. [Pg.190]

Other methods of generating a-aminoketones in situ are common, if somewhat less general than the methods already described. 2-Nitrovinylpyrrolidine, which is readily available, yields 2,3-bis(3-aminopropyl)pyrazine on reduction and this almost certainly involves ring opening of the intermediate enamine to an a-aminoketone which then dimerizes under the reaction conditions (Scheme 59) (78TL2217). Nitroethylene derivatives have also served as a-aminoketone precursors via ammonolysis of the derived epoxides at elevated temperatures (Scheme 60) (76S53). Condensation of 1,1-disubstituted hydrazine derivatives with a-nitro-/3-ethoxyethylene derivatives has been used in the synthesis of l,4-dialkylamino-l,4-dihydropyrazines (Scheme 61) (77S136). [Pg.186]

Oxaziridines are generally formed by the action of a peracid on a combination of a carbonyl compound and an amine, either as a Schiff base (243) or a simple mixture. Yields are between 65 and 90%. Although oxygenation of Schiff bases is formally analogous to epoxidation of alkenes, the true mechanism is still under discussion. More favored than an epoxidation-type mechanism is formation of a condensation product (244), from which an acyloxy group is displaced with formation of an O—N bond. [Pg.228]

Caution The. yield isolated from this reaction depends on the efficiency of this condenser the epoxidation is exothermic and methylenecyclopropane is volatile. [Pg.39]

In turn the oxazoline-containing polymer may then react very rapidly (e.g. at 240°C) with such groups as carboxyls, amines, phenols, anhydrides or epoxides, which may be present in other polymers. This reaction will link the two polymers by a rearrangement reaction similar to that involved in a rearrangement polymerisation without the evolution of water or any gaseous condensation products (Figure 7.14). [Pg.156]

A detailed procedure for the use of MCPBA recently appeared in Reagents for Organic Synthesis by Fieser and Fieser. The commercially available MCPBA (Aldrich) is 85% pure the contaminant, m-chlorobenzoic acid, can be removed by washing with a phosphate buffer of pH 7.5. The epoxidation is usually performed as follows a solution of 3 -acetoxy-5a-androst-16-ene (2.06 g, 6.53 mmoles) in 25 ml of chloroform (or methylene dichloride) is chilled to 0° in a flask fitted with a condenser and drierite tube and treated with a solution of commercial MCPBA (1.74 g, 20% excess) in 25 ml chloroform precooled to the same temperature. The mixture is stirred and allowed to warm to room temperature. After 23 hr (or until TLC shows reaction is complete) the solution is diluted with 100 ml chloroform and washed in sequence with 100 ml of 10% sodium sulfite or sodium iodide followed by sodium thiosulfate, 200 ml of 1 M sodium bicarbonate and 200 ml water. The chloroform extract is dried (MgS04) and evaporated in vacuo to a volume of ca. 10 ml. Addition of methanol (10 ml) followed by cooling of the mixture to —10° yields 0.8 gof 16a,17a-epoxide mp 109.5-110°. Additional product can be obtained by concentration of the mother liquor (total yield 80-90%). [Pg.19]

A mixture of the epoxide ca. 5 mmol), sodium azide (6 g, activated by the method of Smith) and 0.25 ml of concentrated sulfuric acid in 70 ml of dimethyl sulfoxide is heated in a flask fitted with a reflux condenser and a drierite tube on a steam bath for 30-40 hr. (Caution carry out reaction in a hood.) The dark reaction mixture is poured into 500 ml of ice water and the product may be filtered, if solid, and washed well with water or extracted with ether and washed with sodium bicarbonate and the water. The crude azido alcohols are usually recrystallized from methanol. [Pg.35]

Interestingly, phase-transfer catalysts including crown ethers have been used to promote enantioselective variations of Darzens condensation. Toke and coworkers showed that the novel 15-crown-5 catalyst derived from d-glucose 33 could promote the condensation between acetyl chloride 31 and benzaldehyde to give the epoxide in 49% yield and 71% A modified cinchoninium bromide was shown to act as an effective phase transfer catalyst for the transformation as well. ... [Pg.18]

Recendy, Darzens reaction was investigated for its synthetic applicability to the condensation of substituted cyclohexanes and optically active a-chloroesters (derived from (-)-phenylmenthol). In this report, it was found that reaction between chloroester 44 and cyclohexanone 43 provided an 84% yield with 78 22 selectivity for the axial glycidic ester 45 over equatorial glycidic ester 46 both having the R configuration at the epoxide stereocenter. [Pg.19]

Of interest is a recent report of a rapid synthesis of efaroxin (51), a potent, selective O2 adrenoceptor antagonist, using Darzens Reaction. Accordingly, a-bromoester 48 was condensed with aldehyde 47. The glycidic ester (49) was then hydrogenated to reduce the more labile epoxide bond to give alcohol 50. Subsequent standard transformations subsequently lead to a completed 4-step synthesis of efaroxin. o... [Pg.20]

Compounds are prepared by a fairly standard sequence which consists of condensation of an appropriate phenol with epichlorohydrin in the presence of base. Attack of phenoxide can proceed by means of displacement of chlorine to give epoxide (45) directly. Alternatively, opening of the epoxide leads to anion 44 this last, then, displaces halogen on the adjacent carbon to lead to the same epoxide. Reaction of the epoxide with the appropriate amine then completes the synthesis. [Pg.27]

Condensation with the ylide from diethyl (carboxyethyl)-phosphonate gives the corresponding ester largely as the E isomer. The epoxide is then opened with acetate (117) and... [Pg.103]

Epoxide/amino or phenolic resin blends Stoving Addition and condensation polymerisation Blends rich in higher ketones and alcohols Good Good Very good Very good Good ... [Pg.579]


See other pages where Epoxides condensation is mentioned: [Pg.1134]    [Pg.213]    [Pg.335]    [Pg.115]    [Pg.115]    [Pg.287]    [Pg.1134]    [Pg.213]    [Pg.335]    [Pg.115]    [Pg.115]    [Pg.287]    [Pg.160]    [Pg.1191]    [Pg.247]    [Pg.415]    [Pg.443]    [Pg.202]    [Pg.208]    [Pg.21]    [Pg.49]    [Pg.667]    [Pg.689]    [Pg.804]    [Pg.3]    [Pg.499]    [Pg.193]    [Pg.196]    [Pg.229]    [Pg.31]    [Pg.28]    [Pg.68]    [Pg.580]    [Pg.766]    [Pg.954]    [Pg.313]    [Pg.344]    [Pg.448]   
See also in sourсe #XX -- [ Pg.753 ]




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Claisen-Schmidt Condensation-Asymmetric Epoxidation

Condensation polymers epoxides

Condensation reactions epoxides

Epoxides Darzens glycidic ester condensation

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