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Carbonyl Compounds Enones

In this context, an exocyclic double bond is a double bond that lies outside a given ring. Notice that the exocyclic bond may lie within one ring even though it is outside another ring. Often, an exocyclic double bond will be found at a junction point on rings. Here is an example of a compound with the exocyclic double bonds labeled with asterisks  [Pg.593]

Double-bond-extending conjugation 2 x 30 = Exocyclic double bond 3x5 = [Pg.593]

As discussed in Section 10.7, carbonyl compounds have two principal UV transitions, the allowed transition and the forbidden — r riansition. [Pg.593]

Copyright 2013 Cengage Learning. All Rights Reserved. May not be copied, scanned, or duplicated, in whole or in part. [Pg.593]

Of these, only the — transition, although it is weak (forbidden), is conunonly observed above [Pg.594]

The hypsochromic shift of the n — r is due primarily to the inductive effect of the oxygen, nitrogen, or halogen atoms. They withdraw electrons from the carbonyl carbon, causing the lone pair of electrons on oxygen to be held more firmly than they would be in the absence of the inductive effect. [Pg.370]

HYPSOCHROMIC EFFECTS OF LONE-PAIR AUXOCHROMES ON THE n- n TRANSITION OF A CARBONYL CROUP [Pg.370]

Of these, only the n — /r transition, although it is weak (forbidden), is commonly observed above the usual cutoff points of solvents. Substitution on the carbonyl group by an auxochrome with a lone pair of electrons, such as —NR2, —OH, —OR, —NH2, or —X, as in amides, acids, esters, or acid chlorides, gives a pronounced hypsochromic effect on the n — n transition and a lesser, bathochromic effect on the transition. Such bathochromic shifts are caused by resonance [Pg.398]

Hydrosilylation of various carbonyl compounds, enones and related functional groups catalyzed by Group VIII transition metal complexes, especially phosphine-rhodium complexes, have been extensively studied1,3, and the reactions continue to serve as useful methods in organic syntheses. [Pg.1733]

Examples of photoreactions may be found among nearly all classes of organic compounds. From a synthetic point of view a classification by chromo-phore into the photochemistry of carbonyl compounds, enones, alkenes, aromatic compounds, etc., or by reaction type into photochemical oxidations and reductions, eliminations, additions, substitutions, etc., might be useful. However, photoreactions of quite different compounds can be based on a common reaction mechanism, and often the same theoretical model can be used to describe different reactions. Thus, theoretical arguments may imply a rather different classification, based, for instance, on the type of excited-state minimum responsible for the reaction, on the number and arrangement of centers in the reaction complex, or on the number of active orbitals per center. (Cf. Michl and BonaCid-Kouteck, 1990.)... [Pg.360]

Triethylammonium formate is another reducing agent for q, /3-unsaturated carbonyl compounds. Pd on carbon is better catalyst than Pd-phosphine complex, and citral (49) is reduced to citronellal (50) smoothly[55]. However, the trisubstituted butenolide 60 is reduced to the saturated lactone with potassium formate using Pd(OAc)2. Triethylammonium formate is not effective. Enones are also reduced with potassium formate[56]. Sodium hypophosphite (61) is used for the reduction of double bonds catalyzed by Pd on charcoal[57]. [Pg.520]

For conjugated carbonyl compounds, such as a,) -enones, the orbital diagram would be similar, except for the recognition that the HOMO of the ground state is ij/2 of the enone system, rather than the oxygen lone-pair orbital. The excited states can sometimes be usefully represented as dipolar or diradical intermediates ... [Pg.754]

The reaction conditions needed for aldol dehydration are often only a bit more vigorous (slightly higher temperature, for instance) than the conditions needed for the aldol formation itself. As a result, conjugated enones are usually obtained directly from aldol reactions without isolating the intermediate jS-hydroxy carbonyl compounds. [Pg.882]

The net effect of the Stork reaction is the Michael addition of a ketone to an cn/3-unsaturated carbonyl compound. For example, cyclohexanone reacts with the. cyclic amine pyrrolidine to yield an enamine further reaction with an enone such as 3-buten-2-one yields a Michael adduct and aqueous hydrolysis completes the sequence to provide a 1,5-diketone (Figure 23.8). [Pg.897]

Table 6. Michael Addition of Carbonyl Compounds to Enones and Enoates with Crown Ethers or Quaternary Salts as Chiral Catalysts Crown Ethers ... Table 6. Michael Addition of Carbonyl Compounds to Enones and Enoates with Crown Ethers or Quaternary Salts as Chiral Catalysts Crown Ethers ...
Example Compound (21) may not look like a Robinson annelation product, but it is certainly an enone so a,B disconnection gives a 1,5-di-carbonyl compound A reverse Michael reaction disconnecting the ring from the chain gives enone (22),... [Pg.238]

As discussed in Section 10.4 of Part A, concerted suprafacial [2tt + 2tt] cycloadditions are forbidden by orbital symmetry rules. Two types of [2 + 2] cycloadditions are of synthetic value addition reactions of ketenes and photochemical additions. The latter group includes reactions of alkenes, dienes, enones, and carbonyl compounds, and these additions are discussed in the sections that follow. [Pg.538]

Copper hydride species, notably Stryker s reagent [Ph3PCuH]6, are capable of promoting the conjugate reduction of a,( >-unsalurated carbonyl compounds [42], Taking advantage of this trustworthy method, Chiu et al. demonstrated in 1998 an intramolecular reductive aldol reaction in the synthesis of novel terpenoid pseudolaric acids isolated from Chinese folk medicine (Scheme 28) [43]. Two equivalents of [Ph3PCuH]6 enabled cycli-zation of keto-enone 104 to provide the bicyclic diastereomers 105 (66%) and 106 (16%). The reaction also was applied to the transformation of 107... [Pg.131]

Domino transformations combining two consecutive anionic steps exist in several variants, but the majority of these reactions is initiated by a Michael addition [1]. Due to the attack of a nucleophile at the 4-position of usually an enone, a reactive enolate is formed which can easily be trapped in a second anionic reaction by, for example, another n,(5-urisalurated carbonyl compound, an aldehyde, a ketone, an inline, an ester, or an alkyl halide (Scheme 2.1). Accordingly, numerous examples of Michael/Michael, Michael/aldol, Michael/Dieckmann, as well as Michael/SN-type sequences have been found in the literature. These reactions can be considered as very reliable domino processes, and are undoubtedly of great value to today s synthetic chemist... [Pg.48]

The Nef reaction can also be carried out with reducing agents. Aqueous titanium chloride reduces nitro compounds to imines, which are readily hydrolyzed to carbonyl compounds (Eq. 6.17).28 The Michael addition of nitroalkanes to enones followed by reaction with TiCl3 provides an excellent route to 1,4-diketones and hence to cyclopentenones. For example, cw-jasmone is readily obtained,28 as shown in Eq. 6.18. [Pg.164]

See other pages where Carbonyl Compounds Enones is mentioned: [Pg.293]    [Pg.268]    [Pg.369]    [Pg.369]    [Pg.371]    [Pg.1]    [Pg.103]    [Pg.593]    [Pg.593]    [Pg.595]    [Pg.1435]    [Pg.397]    [Pg.397]    [Pg.293]    [Pg.268]    [Pg.369]    [Pg.369]    [Pg.371]    [Pg.1]    [Pg.103]    [Pg.593]    [Pg.593]    [Pg.595]    [Pg.1435]    [Pg.397]    [Pg.397]    [Pg.104]    [Pg.363]    [Pg.219]    [Pg.361]    [Pg.214]    [Pg.227]    [Pg.347]    [Pg.732]    [Pg.1264]    [Pg.54]    [Pg.732]    [Pg.75]    [Pg.561]    [Pg.92]    [Pg.90]    [Pg.347]   


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ENON COMPOUNDS

Enones compounds

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