Alkene cycloaddition, photo

Arguello, J.E., Perez-Ruiz, R., and Miranda, M.A. (2007) Novel [4 + 2] cycloaddition between thiobenzophenone and aryl-substituted alkenes via photo-induced electron transfer. Organic Letters, 9, 3587-3590. 

Easic Principles Practical Photochemistry General Considerations Carbonyl Compounds a-Cleavage Carbonyl Compounds Hydrogren Abstraction Steroids Carbonyl Compounds Cycloaddition Enone and Dienone Rearrangements Alkenes Isomerisation and Rearrangement Alkenes Cycloaddition Alkenes Photo-Cxidation Terpenoids Aromatic Compounds Isomerisation and Cycloaddition Practical Photochemistry Scale-up Aromatic Compounds Substitution and Cydisation Alkaloids Photoinitiated Free-radical Chain Reactions. 

Photo-induced tetrazole-alkene cycloaddition (Photoclick)... 

Scheme 8 Strategies for site selective protein modifications via photo-triggered tetrazole-alkene cycloaddition reaction a modification of native residues, b genetic encoding of tetrazole amino acids, and c genetic encoding of alkene amino acids...

In contrast with the thermal [4 + 2] Diels-Alder reaction, the 2 + 2 cycloaddition of two alkenes to yield a cvclobutane can only be observed photo-chemically. The explanation follows from orbital-symmetry arguments. Looking at the ground-state HOMO of one alkene and the LUMO of the second alkene, it s apparent that a thermal 2 + 2 cycloaddition must take place by an antarafacial pathway (Figure 30.10a). Geometric constraints make the antarafacial transition state difficult, however, and so concerted thermal [2 + 2j cycloadditionsare not observed. 

The intramolecular 2 + 2-photo-cycloadditions of optically active allenesilanes (5) with enones and enoates produce silyl-substituted exo-methylenecyclobutanes (6) in high enantiometric excess. Photo-desilation leads to the parent unsaturated exo-methylenecyclobutanes (7) (Scheme 3).19 The cycloaddition of naphthoquinone to allyltrimethylsilane in the presence of Me2 A1C1 yields the expected 2 + 2-cycloadduct that slowly rearranges to the 2 + 3-adduct.20 hi the presence of bases, Cephalosporin triflates (8) undergo 2 + 2- and 4 + 2-cycloaddition with alkenes, alkynes, and dienes via an intermediate six-membered cyclic allene (9) (Scheme 4).21... 

A review of photo-cycloadditions of dienones and quinones has been published.41 The first example of a Lewis acid-catalysed 2 + 2-cycloaddition of styrene with naphthoquinone has been reported.42 FMO methods have been used to investigate the effect of substituents on the regiochemistry of the 2 + 2-photo-cycloaddition of a, fi-unsaturated carbonyl compounds with substituted alkenes.43 Evidence has been presented for the presence of a triplet exciplex intermediate in the photo-cycloaddition of 4,4-dimethylcyclohexenone to 1,1-diphenylethylene.44 The intramolecular 2-1-2-photo-cycloaddition of 2-acyloxy-3-hexenoylcyclohexenones (26) is highly diastereo-selective yielding the tricyclic adduct (27) (Scheme 10).45... 

The use of isopropylidine acetals (112) as tethers in the intramolecular Diels-Alder reactions of dienes with alkenes facilitates the formation of civ-fused cycloadducts (113) from an endo transition state (Scheme 41).218 The intramolecular Diels-Alder reaction of 4-[tris-(2-mcthylcthyl)silyl]oxy-2//-thiopyran derivatives with potential dienophiles tethered at C(2), C(3), C(5), and C(6) positions yielded cycloadducts when the dienophiles were activated with a carbomethoxy group.219 By the substitution of a phenylsulfonyl group on the dienophile of 2-benzopyran-3-ones, it is possible to enhance exo addition during intramolecular Diels-Alder cyclizations to yield a predominance of trans-fused hexaphenanthrenes related to natural products.220 The intramolecular Diels-Alder reaction of 2-furfuryl fumarates has been investigated by molecular mechanics (SIBFA)/continuum reaction field computations.221 The intramolecular 4 + 2-photo-cycloaddition of A-benzylcinnamamides (114) in the presence of C(,H6 gives 3-azatricyclo[5.2.2.01,5]undeca-8,10-dien-4-ones (115) with high stereoselectivity (Scheme 42).222... 

Photo-[4+2] reactions of the dienone steroid 105 illustrates interesting regio-, stereo-, and site selectivities (Sch. 24) [75-78]. Reaction with 1-acetoxy-1,3-diene 106 gives trans adduct 107 in good yield, epimeric at the acetate. The trans cycloaddition was attributed to a triplet pathway rather than a twisted enone intermediate [75]. Reaction with 2,3-dimethyl-1,3-butadiene 108 leads to four [4+2] adducts, with reaction at both alkenes groups of the dienone. Note that the products of reaction at the y,5-alkene are both cis. 

The presence of an exocyclic double bond on aromatic [52] or heteroaromatic [53] compounds dictates the locoselectivity of the cycloaddition occurring preferentially at the alkene terminus, and sometimes with retention of stereochemistry [52b], Thus, the [4+2] photo-oxygenation of a vinylbenzene derivative, such as 60, leads to dihydrobenzo-1,2-dioxin in the primary step, which is followed by rapid oxygenation of the cyclohexadiene chromophore to give diendoperoxides as 61 and 62 (Sch. 34) [52c],... 

Three types of cycloaddition products are generally obtained from the photochemical reaction between aromatic compounds and alkenes (Scheme 31). While [2 + 2] (ortho) and [3 + 2] (meta) cycloaddition are frequently described, the [4 + 2] (para or photo-Diels-Alder reaction) pathway is rarely observed [81-83]. Starting from rather simple compounds, polycyclic products of high functionality are obtained in one step. With dissymmetric alkenes, several asymmetric carbons are created during the cycloaddition process. Since many of the resulting products are interesting intermediates for organic syntheses, it is particularly attractive to perform these reactions in a diastereoselective way. 

Bach T, Bergmann H (2000) Enantioselective intermolecular [2+21-photo-cycloaddition reactions of alkenes and a 2-quinolone in solution. J Am ChemSoc 122 11525-11526... 

Photo sensitized oxygenation of alkenes with singlet oxygen can, in principle, proceed via three competitive reaction pathways [4 + 2]cycloaddition to e do-peroxides, ene reaction of allylic hydroperoxides, and [2 + 2]cycloaddition to 1,2-dioxetanes (see reference [681] for a review). With suitable olefinic substrates, the chemical outcome of such photo-oxygenation reactions can be strongly influenced by the solvent. This is shown in the somewhat simplified Eq. (5-145). 

Further evidence in support of zwitterionic intermediates in the [2 + 2]-cycloaddition of singlet oxygen to electron-rich alkenes has been obtained by Jefford et al. [684]. The photo-oxygenation of 2-(methoxymethylidene)adamantane creates a zwitterionic intermediate (peroxide or perepoxide), which can be captured by acetaldehyde to give 1,2,4-trioxanes in addition to 1,2-dioxetanes cf. Eq. (5-147). 

The photo-cycloaddition of alkenes and dienes to styrenes and stilbenes has been recently reviewed by Lewis (1979). tranj-Stilbene adds to many electron-rich alkenes to give [2 + 2]-cycloaddition products (Kaupp et al., 1978). Similar products are formed with vinylene carbonate (Lewis and Hoyle, 1977). Conjugated 1,3-dienes give [2 + 2]-cycloaddition products (Lewis and Hoyle, 1977 Lewis and Johnson, 1977). When nonpolar solvents are used, the reaction is modestly regioselective, but as the polarity of the solvent is increased the selectivity increases. Since the dienes quench the fluorescence of the stilbenes, it appears that exciplexes are involved. [2 + 2]-Cycloaddition takes place when indene (Sket and Zupan, 1976) and imidazoles (Ito and Matsura, 1979) are irradiated in the presence of hexafluorobenzene and... 

Translation of these results into compound I leads to structure X. Unraveling of the strained zwitterion XI derived from this would yield keto aldehyde XII, a structure that plays a central role in the various possible reaction mechanisms that branch off from the starting material I. Furthermore, under photo-lytic conditions, some alkenes react with carbonyl compounds to form four-membered cyclic ethers, namely, oxetanes, by way of a [2-1-2] cycloaddition reaction known as the Patemo-Buchi process. Such a reaction would be all that is necessary to convert XII into the bicyclic cyclopropanone XIII required for the Favorskii-type rearrangement (see Scheme 42.3). Splitting by methanol attack would directly yield compound II. 

In an earlier report Mazzocchi and his coworkers reported that the photo-reaction of A) methylnaphthalimide (325) with phenyIcyclopropane involved the production of a radical cation/radical anion pair. The product from the reaction was the cyclic ether (326). - A study of the mechanism of this reaction using suitably deuteriated compounds has demonstrated that the reaction is not concerted and takes place via the biradical (327). - Other systems related to these have been studied. In the present paper the photoreactivity of the naphthalimide (328) with alkenes in methanol was examined. Thus, with 1-methylstyrene cycloaddition occurs to the naphthalene moiety to afford the adducts (329) and (330). The mechanism proposed for the addition involves an electron transfer process whereby the radical cation of the styrene is trapped by methanol as the radical (331). This adds to the radical anion (332) ultimately to afford the observed products. Several examples of the reaction were descr ibed. 

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