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Furans carbonyl compounds

The fruit of pumpkin (Cucurbita pepo) is eaten boiled or baked. About 30 compounds have been identified in the volatile extracts of raw pumpkin, with the major classes of compounds being aliphatic alcohols and carbonyl compounds, furan derivatives and sulfur-containing compounds. Hexanal, ( )-2-hexenal, (Z)-3-hexen-l-ol and 2,3-butanedione have been identified as important for the flavour of freshly cooked pumpkins (Table 7.7) [35] however, studies using GC-O techniques are needed to get a better understanding of the character-impact compounds of pumpkins. [Pg.173]

There are several classes of compounds formed from rapid pyrolysis of carbohydrates. Besides anhydrosugars, they are carbonyl compounds, furan derivatives, lactones, pyran derivatives, phenols, acids and acid esters, and other compounds. In general, the presence of a substantial quantity of 5-hydroxymethylfuraldehyde in the pyrogram indicates that a hexose is present. Substantial amounts of furaldehyde and the absence of 5-hydroxymethylfuraldehyde in the pyrolysis products indicate the presence of a pentose. However, these markers are not diagnostic for a specific hexose or pentose. [Pg.220]

Firmenich R., G., R-E. and F-H. (Firmenich Cie) (1969k) Heterocyclic carbonyl compounds (furanes, pyrroles, thiazoles). Br. Patent 1156478. [Pg.357]

The disadvantages associated with the Clemmensen reduction of carbonyl compounds (see 3 above), viz., (a) the production of small amounts of carbinols and unsaturated compounds as by-products, (h) the poor results obtained with many compounds of high molecular weight, (c) the non-appUcability to furan and pyrrole compounds (owing to their sensitivity to acids), and (d) the sensitivity to steric hindrance, are absent in the modified Wolff-Kishner reduction. [Pg.511]

A-Substituted pyrroles, furans and dialkylthiophenes undergo photosensitized [2 + 2] cycloaddition reactions with carbonyl compounds to give oxetanes. This is illustrated by the addition of furan and benzophenone to give the oxetane (138). The photochemical reaction of pyrroles with aliphatic aldehydes and ketones results in the regiospecific formation of 3-(l-hydroxyalkyl)pyrroles (e.g. 139). The intermediate oxetane undergoes rearrangement under the reaction conditions (79JOC2949). [Pg.67]

The unsaturated tetraoxaquaterene (accompanied by linear condensation products) was first synthesized in 18.5% yield by the acid-catalyzed condensation of furan with acetone in the absence of added lithium salts. Other ketones also condensed with furan to give analogous products in 6-12% yield.A corresponding macrocycle was also prepared in 9% yield from pyrrole and cyclohexanone. The macrocyclic ether products have also been obtained by condensation of short linear condensation products having 2, 3, or 4 furan rings with a carbonyl compound. ... [Pg.77]

Subsbtuting vinylic hydrogen in a,P-unsaturated carbonyl compounds with vinylic fluonne does not affect their dienophilic character negatively Indeed, 3,3-difluoroacrylic acid is more reactive toward furan than its nonfluonnated counterpart [95] (equation 81) Consistent with this observation is the fact that tctrafluorobenzoquinone forms only a bis-Diels-Alder adduct m 68% yield in its reaction with cyclopentadiene at room temperature [96, 97 ... [Pg.825]

Vinyl Ethers and Vinyl Carbonyl Compounds of the Furan Series. 79... [Pg.48]

This section deals with investigations specifically aimed at producing homopolymers and copolymers of furan carbonyl compounds by the selective opening of the carbonyl bond. The many reports on polymerization of 2-furaldehyde which in fact deal with complicated acid-catalysed resinification reactions which involve both the formyl group and the furan ring are reviewed in Chapter VI. [Pg.81]

Florio achieved a general method for the synthesis of hydroxyalkyl 1,3-dihydrobenzo[c]furans from o-lithiated aryloxiranes and carbonyl compounds, and an example is depicted in the following scheme <06JOC3984>. [Pg.200]

Deprotection of 2,2-disubstituted-l,3-dithiolanes to give carbonyl compounds can be achieved using Oxone with KBr in aq. MeCN <06TL8559> and a review of silylated heterocycles as formyl anion equivalents includes reference to 64 <06CC4881>. A method for transformation of propargylic dithiolanes 43 into tetrasubstituted furans has been reported <06SL1209> and Michael addition of enolates to the chiral dithiolane dioxide 65 takes place... [Pg.281]

The Paterno-Buchi photocycloaddition between carbonyl compounds and furans was first described in 1965 (equation 6)80. This report noted that only the head-to-head product 171 was formed, and that high exo face selectivity was exhibited. Subsequent to this and other early reports, this reaction has been systematically explored by several groups, owing largely to the various ways in which the 2,7-dioxabicyclo[3.2.0]hept-3-ene ring system can be exploited730,81. [Pg.298]

Titanium silicate molecular sieves not only catalyze the oxidation of C=C double bonds but can be successfully employed for the oxidative cleavage of carbon-nitrogen double bonds as well. Tosylhydrazones and imines are oxidized to their corresponding carbonyl compounds (243) (Scheme 19). Similarly, oximes can be cleaved to their corresponding carbonyl compounds (165). The conversion of cyclic dienes into hydroxyl ketones or lactones is a novel reaction reported by Kumar et al. (165) (Scheme 20). Thus, when cyclopentadienes, 1,3-cyclohexadiene, or furan is treated with aqueous H202 in acetone at reflux temperatures for 6 h in the presence of TS-1, the corresponding hydroxyl ketone or lactone is obtained in moderate to good yields (208). [Pg.127]

In contrast to the rich chemistry of alkoxy- and aryloxyallenes, synthetic applications of nitrogen-substituted allenes are much less developed. Lithiation at the C-l position followed by addition of electrophiles can also be applied to nitrogen-containing allenes [10]. Some representative examples with dimethyl sulfide and carbonyl compounds are depicted in Scheme 8.73 [147, 157]. a-Hydroxy-substituted (benzotriazo-le) allenes 272 are accessible in a one-pot procedure described by Katritzky and Verin, who generated allenyl anion 271 and trapped it with carbonyl compounds to furnish products 272 [147]. The subsequent cyclization of 272 leading to dihydro-furan derivative 273 was achieved under similar conditions to those already mentioned for oxygen-substituted allenes. [Pg.471]

Enzymatic reduction of carbonyl compounds and enzymatic enantioselective transformation of racemic or meso alcohols (25,43.) are two methodologies that have proven to be beneficial in the preparation of optically active hydroxyl compounds, key chiral building blocks used in carbohydrate and natural product syntheses (44-45. Our interest in this area is to develop enzymatic routes to optically active glycerol and furan derivatives, and hydroxyaldehydes. [Pg.325]

In regard to the importance of a diastereoselective synthesis of 5-[hydroxy(aryl) methyl]furan-2(5//)-ones, the Bi(OTf)3-4H20-catalyzed vinylogous Mukaiyama aldol has been investigated with 2-(trimethylsilyloxy)furans and various carbonyl compounds [146]. [Pg.102]

Conditions carbonyl compound (1.0 equiv.), 2-(trimethylsilyloxy)furan or 3-methyl-2-(trimethyl-silyloxy)furan (1.5 equiv.), Bi(0Tf)3-4H20 (x mol%), Et20, —45 °C, 0.5-3 h na not applicable... [Pg.106]

Simple sugar dehydration/fragmentation products furans, pyrones, cyclopentenes, carbonyl compounds, acids... [Pg.274]

The double bonds in certain heterocyclic compounds, such as furans, Af-acylpyrroles and A-acylindoles are also susceptible to photoaddition of carbonyl compounds to form oxetanes (equation 106) (77JHC1777). A wide range of carbonyl compounds can be used, including quinones, a-diketones, acyl cyanides, perfluorinated aldehydes and ketones and esters. A remarkable case of asymmetric induction in oxetane formation has been reported from optically active menthyl phenylglyoxylate and 2,3-dimethyl-2-butene the oxetane product obtained after hydrolysis of the ester group had an optical purity of 53% (79AG(E)868). [Pg.397]

Similarly, l-bromo-l,l-difluoro-2-alkynes, which were prepared by the reaction of lithium acetylides with CF2ClBr [284] or CF2Br2 [285], also reacted with carbonyl compounds in the presence of zinc to afford the corresponding a,a-difluoropropargyl alcohol [285]. This reaction has been utilized for the preparation of 3-fluoro-2,5-disubstituted furans [286] and other fluorinated biologically active compounds [285,287] (Scheme 99). [Pg.82]

XVII XVII, 1st Supplement (combined with Volumes XVIII and XIX) XVII, 2nd Supplement 1933 1934 1952 2359-2503 2359-3031 2359-2503 One Cyclic Oxygen (S, Se or Te). Stem nuclei Furan, 27. Thiophene, 29. Hydroxy compounds Furfuryl alcohol, 112. Carbonyl compounds Butyrolactone, 234. Furfural, 272. 2-Aeetyl-thio-phene, 287. Xanthone, 355. Succinic anhydride, 404. Phthalic anhydride, 469. [Pg.1123]

Furan-2-methanols are cleaved to derivatives of levulinic ester by methanolic hydrogen chloride a mechanism involving the carbonium ion (375) has been proposed. Under similar conditions, a,(3- unsaturated carbonyl compounds of type (384) undergo a similar rearrangement, a reaction known as the Marckwald rearrangement, and afford keto esters of type (385), as shown in Scheme 105 in an example drawn from a synthesis of equilenin (70AJC547). [Pg.646]


See other pages where Furans carbonyl compounds is mentioned: [Pg.78]    [Pg.331]    [Pg.490]    [Pg.145]    [Pg.423]    [Pg.118]    [Pg.174]    [Pg.224]    [Pg.136]    [Pg.571]    [Pg.231]    [Pg.69]    [Pg.727]    [Pg.272]    [Pg.535]    [Pg.562]    [Pg.639]    [Pg.679]    [Pg.695]   


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