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Carbonyl compounds pyrrole

From 2-methylpyrrole and formaldehyde, orange-coloured pyrrolyl(pyrrol-2-ylidene)methane is formed, which is unsubstituted in the 5-position. In acid-catalysed reactions with carbonyl compounds, pyrroles behave similarly to phenols, which give diphenylmethanes via hydroxymethyl compounds. [Pg.91]

An especially important group of reactions is that with carbonyl compounds. Pyrrole reacts vigorously with formalin giving condensed products, presumbly of the type (15), which on pyrolysis produce some 2-methyl-pyrrole . [Pg.71]

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]

Knorr Synthesis. Condensation of an a-aminoketone with a carbonyl compound was first reported by Knott (20). This reaction and its modifications are among the most important and widely used methods for the synthesis of pyrroles. [Pg.355]

Hydroxypyrroles. Pyrroles with nitrogen-substituted side chains containing hydroxyl groups are best prepared by the Paal-Knorr cyclization. Pyrroles with hydroxyl groups on carbon side chains can be made by reduction of the appropriate carbonyl compound with hydrides, by Grignard synthesis, or by iasertion of ethylene oxide or formaldehyde. For example, pyrrole plus formaldehyde gives 2-hydroxymethylpyrrole [27472-36-2] (24). The hydroxymethylpyrroles do not act as normal primary alcohols because of resonance stabilization of carbonium ions formed by loss of water. [Pg.358]

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]

Discovered more than a century ago, the Knorr and Paal-Knorr (PK) pyrrole syntheses are similar intermolecular condensations of amines with carbonyl compounds to give pyrroles. [Pg.79]

The Knorr pyrrole synthesis involves the reaction between an a-amino ketone 1 and a second carbonyl compound 2, having a reactive a-methylene group, to give a pyrrole 3. The amine 1 is often generated in situ by reduction of an oximino group. [Pg.79]

The mechanism of the original Knorr pyrrole synthesis entails in situ reduction of the oxime moiety to an amine, condensation with the second carbonyl compound, and cyclization with loss of a second molecule of water to give a pyrrole for example, 10 + 11 to 12. Several studies have demonstrated that different pathways and pyrrole products obtain depending on the substrates. [Pg.80]

As discussed in Chapter 6, nitro compounds are converted into amines, oximes, or carbonyl compounds. They serve as usefid starting materials for the preparation of various heterocyclic compounds. Especially, five-membered nitrogen heterocycles, such as pyrroles, indoles, ind pyrrolidines, are frequently prepared from nitro compounds. Syntheses of heterocyclic compounds using nitro compounds are described partially in Chapters 4, 6 and 9. This chapter focuses on synthesis of hetero-aromadcs fmainly pyrroles ind indolesi ind saturated nitrogen heterocycles such as pyrrolidines ind their derivadves. [Pg.325]

A one pot samarium-catalyzed three-component reaction of aldehydes, amines, and nitroal-kanes leads to pyrroles. The reaction proceeds via imines, generated from the amine and carbonyl compound, followed by the Michael addition of the nitro compound (Eq. 10.10).12a In... [Pg.328]

Other aromatic heterocycles undergo Patemo-Btichi reaction with carbonyl compounds, although these reactions have seldom been applied to organic synthesis. For example, thiophene reacts cleanly with benzaldehyde to afford a single exo product in 63% yield87. Pyrroles also react with aldehydes and ketones however, as a result of the lability of the presumed initial cycloadducts, the only products isolated, even with the rigorous exclusion of acid, are the 3-hydroxyalkylpyrroles 200 (equation 7)89. [Pg.305]

The /3-electrophilic additions of pentaamineosmium(ll) complexes bearing various 4,5-tf -coordinated pyrroles to carbonyl compounds have been reported by Harman and co-workers (Scheme 78). 1 1-Methylpyrrole complex, when reacted with benzaldehyde or its dimethylacetal in the presence of /-butyldimethylsilyl triflate (TBSOTf), afforded the corresponding aldol adduct 177 as a 1 1 ratio of diastereoisomers. Pyrrole, 1-methylpyrrole, or 2,5-dimethylpyr-role osmium complexes reacted with an excess of acetone in the presence of TBSOTf to give the O-silylated 377-pyrrolium aldol adducts 178, which may serve as intermediates for various other reactions. [Pg.445]

Knoevenagel reaction org chem The condensation of aldehydes with compounds containing an activated methylene (=Cff2) group. ka ne va.nag al re.ak shan ) Knorr synthesis orgchem Acondensation reaction carried out In either glacial acetic acid or an aqueous alkali in which an a-aminoketone combines with an a-carbonyl compound to form a pyrrole possibly the most versatile pyrrole synthesis. nor, sin-th3-s3s ... [Pg.210]

Pyrrole reacts with aldehydes and ketones under acidic conditions to form polymeric compounds. In many cases these are intractable resin-like materials however, with appropriate carbonyl compounds, interesting cyclic tetramers can be formed in very good yields. [Pg.423]

Metal complexes of pyrrole have also been investigated as substrates for lithiation reactions, with both iron and rhenium Tj -pyrrole derivatives having been found to undergo a-lithiation [90H(31 )383]. Azaferrocene was the first derivative of this type to be studied [83JOM(25l)C41], but it was found that lithiation was not selective and occurred equally in both rings. However, notwithstanding this, it has recently been reported that isomer-ically clean products can be obtained in certain circumstances from reaction with certain carbonyl compounds (Scheme 12) (89MI2). [Pg.169]

In the case of pyrroles with a,P-unsaturated carbonyl compounds, the reactions have low selectivity because these substrates are excellent nucleophiles, thus twofold addition products are mainly obtained [73, 74]. [Pg.445]

Pyrrole synthesis from at-dicarbonyl compounds.15 A new approach to N-benzyl-pyrroles is formulated for biacetyl as starting material (equation I). The method is also suitable for annelation of a pyrrole group to an a-methylene carbonyl compound. [Pg.390]

Numerous pyrrole derivatives were synthesized from enamine carbonyl compounds. Cyclic enaminoamides with a chlorine atom in the jS -position... [Pg.284]


See other pages where Carbonyl compounds pyrrole is mentioned: [Pg.356]    [Pg.123]    [Pg.125]    [Pg.328]    [Pg.328]    [Pg.255]    [Pg.328]    [Pg.347]    [Pg.146]    [Pg.231]    [Pg.89]    [Pg.136]    [Pg.104]    [Pg.9]    [Pg.272]    [Pg.535]    [Pg.123]    [Pg.125]    [Pg.233]    [Pg.234]    [Pg.237]    [Pg.297]    [Pg.341]    [Pg.84]   
See also in sourсe #XX -- [ Pg.117 ]




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