Cycloaddition reactions, alkenes carbonyl compounds

Table 8. Fluorinated Oxetanes by [2 -(- 2]-Cycloaddition Reactions of Carbonyl Compounds with Fluorinated Alkenes...

Cycloaddition Reactions of Carbonyl Compounds with Alkenes... 

The photochemical [2 + 2]-cycloaddition reactions of carbonyl compounds with alkenes are known as the Paterno-Buchi reactions This reaction was first reported by the group of E. Patemo and G. Buchi on the reaction of benzaldehyde with 2-... 

Photochemical cycloaddition reactions of carbonyl compounds with alkenes... 

The photochemical cycloaddition of a carbonyl compound 1 to an alkene 2 to yield an oxetane 3, is called the Patemo-Buchi reaction - This reaction belongs to the more general class of photochemical [2 + 2]-cycloadditions, and is just as these, according to the Woodward-Hofmann rules, photochemically a symmetry-allowed process, and thermally a symmetry-forbidden process. 

By analogy with the formation of dihydropyrans from unsaturated carbonyl compounds and alkenes (see Section 2.24.2.7.l(i)), the synthesis of 4//-pyrans from the [4 + 23-cycloaddition of unsaturated carbonyl compounds and alkynes would seem to offer some potential. Such a reaction has indeed proved of value, but examples are largely restricted to the use of ynamines as the dienophile (76BSF987). 

The photochemically induced [2+2] cycloaddition (Patemo-Btlchi reaction) of carbonyl compounds with alkenes gives oxetanes. ... 

Mechanism of Ozonolysis (Criegee mechanism) The initial step of the reaction involves a 1,3-dipolar cycloaddition of ozone to the alkene leading to the formation of the primary ozonide (molozonide or 1,2,3-trioxolane), which decomposes to give a carbonyl oxide and a carbonyl compound. The carbonyl oxides are similar to ozone in being 1,3-dipolar compounds and undergo 1,3-dipolar cycloaddition to the carbonyl compound with the reverse regio-chemistry, leading to a relatively stable secondary ozonide (1,2,4-trioxolane) (Scheme 5.47). 

Compared to the hetero-Diels-Alder reaction of carbonyl compounds and derivatives with dienes, where only a limited number of catalytic and enan-tioselective reactions have been reported, the number of asymmetric hetero-Diels-Alder reactions in which the ketone or imine functionality is part of a heterodiene is much higher. In contrast, there are only a few examples of using a,p-unsaturated aldehydes in inverse hetero-Diels-Alder reactions. In the case of the inverse electron demand hetero-Diels-Alder reaction, the ketone or imine functionality is part of an a,(I-unsaturated system, which reacts in a cycloaddition reaction with an electron-rich alkene. The inverse electron demand hetero-Diels-Alder reaction is primarily controlled by a LUMOdiene-HOMOdienophiie interaction, which can be found, for example, in the reactions... 

Important photo-induced reactions of carbonyl compounds are the reduction of carbonyl compounds by hydrogen abstraction, fragmentation, cycloaddition to alkenes and rearrangement. 

Transition-metal mediated carbene transfer from 205 to benzaldehyde generates carbonyl ylides 211 which are transformed into oxiranes 216 by 1,3-cyclization, into tetrahydrofurans 212, 213 or dihydrofurans 214 by [3 + 2] cycloaddition with electron-deficient alkenes or aUtynes, and 1,3-dioxolanes 215 by [3 + 2] cycloaddition with excess carbonyl compound (equation 67). Related carbonyl ylide reactions have been performed with crotonaldehyde, acetone and cyclohexanone (equation 68). However, the ylide generated from cyclohexanone could not be trapped with dimethyl fumarate. Rather, the enol ether 217, probably formed by 1,4-proton shift in the ylide intermediate, was isolated in low yield . In this respect, the carbene transfer reaction with 205 is not different from that with ethyl diazoacetate, whereas a close analogy to diazomalonates is observed for the other carbonyl ylide reactions. 

A comparable approach was used by some of the same authors in the study of the regioselectivity of the photochemical [2 -I- 2] cycloaddition of triplet carbonyl compounds with a series of ground state electron-rich and electron-poor alkenes, the Paterno-Buchi reaction,yielding oxetanes. Very recently, the regioselectivity of the [2 -I- 2] photocycloaddition reaction between triplet (n-n ) acrolein and substituted olens in their... 

As was mentioned in Section 13.2, the [27t + 27i] photocycloaddition of alkenes is an allowed reaction according to orbital symmetry considerations. Among the most useful reactions in this categoty, from a synthetic point of view, are intramolecular [27t + 2ti] cycloadditions of dienes and intermolecular [2ti + 2ti] cycloadditions of alkenes with cyclic a, -unsaturated carbonyl compounds. These reactions will be discussed in more detail in Section 6.4 of Part B. 

A simple approach for the formation of 2-substituted 3,4-dihydro-2H-pyrans, which are useful precursors for natural products such as optically active carbohydrates, is the catalytic enantioselective cycloaddition reaction of a,/ -unsaturated carbonyl compounds with electron-rich alkenes. This is an inverse electron-demand cycloaddition reaction which is controlled by a dominant interaction between the LUMO of the 1-oxa-1,3-butadiene and the HOMO of the alkene (Scheme 4.2, right). This is usually a concerted non-synchronous reaction with retention of the configuration of the die-nophile and results in normally high regioselectivity, which in the presence of Lewis acids is improved and, furthermore, also increases the reaction rate. 

Two different alkenes can be brought to reaction to give a [2 -I- 2] cycloaddition product. If one of the reactants is an o, /3-unsaturated ketone 11, this will be easier to bring to an excited state than an ordinary alkene or an enol ether e.g. 12. Consequently the excited carbonyl compound reacts with the ground state enol ether. By a competing reaction pathway, the Patemo-Buchi reaction of the 0, /3-unsaturated ketone may lead to formation of an oxetane, which however shall not be taken into account here ... 

Lewis-acid catalyzed inverse electron-demand Diels-Alder reactions between conjugated carbonyl compounds and simple alkenes and enolethers also allow dihydropyranes to be prepared. SnCU-Catalyzed cycloaddition of... 

E) alkenes. One explanation for this is that the reaction of the ylid with the carbonyl compound is a 2-1-2 cycloaddition, which in order to be concerted must adopt the [rt2s+n2al pathway. As we have seen earlier (p. 1079), this pathway leads to the formation of the more sterically crowded product, in this case the (Z) alkene. If this explanation is correct, it is not easy to explain the predominant formation of ( ) products from stable ylids, but (E) compounds are of course generally thermodynamically more stable than the (Z) isomers, and the stereochemistry seems to depend on many factors. 

Scheme 30a,b [2 + 2] Cycloaddition reactions of excited carbonyl compounds with the alkenes substituted by electron-accepting (a) and -donating (b) groups... 

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. 

Trimethylenemethane is a special type of alkene that does not exist as the free compound. Various synthetic equivalents to the synthon 43 shown below have been reported. Trost, in particular, has exploited these compounds in 1,3-dipolar cycloaddition reactions.138 139 A metal-bound, isolated trimethylenemethane species was recently reported by Ando (Scheme 6). It resulted from the complexation of an ero-methylenesila-cyclopropene with group 8 carbonyls (Fe, Ru).140,140a The structure was proved by X-ray crystal structure analysis.29Si NMR data were consistent with the -structure shown. 

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