2- oxetane 3-silyl-1-alkene

The results of irradiation ( i > 290 nm) of a series of aldehydes and ketones (91) in the presence of the silyl acetals (92) have been reported. The reactions are both solvent and silyl group dependent and the best results are obtained when the solvents used are /z-hexane, THF, diethyl ether or benzene and with the silyl group TBDMS. The products are the oxetanes (93) and the silyl-migrated product (94) in a ratio greater than 95 5 respectively. There is no evidence for the formation of the isomeric oxetane. Other studies from this research group" have examined the photochemical addition of a series of aryl aldehydes (95) to the cyclic silyl alkenes (96) brought about by irradiation at X,>290 nm in methylene chloride solution. The additions encountered take place with regio and exo selectivity as shown by the yields and ratios of the products (97). 

Homoallylic alcohols with a silyl group attached to the terminal alkene carbon were cyclised to oxetanes in high yields by reaction with bis(.sy z-collidine)bromine(l) hexafluoroantimonate (e.g., Equation 31) <2001TL2481>. This reaction exclusively gave the four-membered cyclic ether, with the silyl group directing formation of the electrophilic intermediate for the subsequent 4-fvo-/rrg -cyclization. When the carbon /3 to the silyl group on the double bond was unsubstituted, the reaction was diastereospecific. 

This peculiar stereoselectivity might be attributed to a memory effect from the approach geometry between the triplet excited benzaldehyde and the alkene. Abe and coworkers have also observed a comparable stereochemical effect in the Paterno-Buchi reaction of 4-cycanobenzalde-hyde with O-silylated thioketene acetals 129 (Sch. 43) resulting in the highly functionalized oxetanes 130 [64]. 

The photochemical cycloaddition of a carbonyl, generally from an aldehyde or ketone, and an alkene is called the Patemd-Buchi reaction This [2 + 2]-cycloaddition gives an oxetane (213) and the reaction is believed to proceed via a diradical intermediate. Silyl enol ethers react with aldehydes under nonphoto-chemical conditions using ZnCl2 at 25°C or SnCl4 at —78°C. ... 

The Patemo-Buchi reaction is the photocycloaddition of an alkene with an aldehyde or ketone to form oxetanes. This transformation has been shown to proceed through a biradical intermediate, and up to three new stereocenters can be formed as a result of this reaction. A general mechanism for the reaction between an aldehyde and a chiral enol silyl ether is shown in Eq. (13.7) [18]. Allylic 1,3-strain is cited as the control element in reactions of this type, and diastereomeric ratios of >95 5 are reported for products 30 containing four contiguous stereocenters. Examples of photocyclizations of amino acid derivatives proceeding through biradical intermediates have been repotted [19]. 

Allylic silanes,silyl enol ethers, " and ketene silyl acetals " serve as electron-rich alkenes in photoreactions with a variety of carbonyl compounds, such as benzophenone, to give oxetanes in a regio- and stereoselective manner. The ring-opening reactions of... 

The photochemical reactivity of P-ketoesters is different form that of P-diketones. Irradiation of a P-ketoester in the presence of an alkene produces oxetane via the ketone carbonyl instead of the desired cyclobutane ring system. Therefore, it is necessary to covalently lock the ketoesters as the enol tautomers. To this end, silyl enol ethers, 129 and 132a, and enol acetates, 130 and 132b, were prepared, but these substrates still fail to undergo the desired intramolecular [2 + 2] photocycloaddition with olefins. The only new products observed in these reactions result from the photo-Fries rearrangement of the cyclic enol acetate (130 to 131) and cis-trans isomerization of both acyclic substrates 132a/b. However, tetronates are appropriate substrates for both intermolecular and intramolecular photocycloadditions with olefins. In addition, enol acetates and silyl enol ethers of p-keto esters are known to undergo [2 + 2] photoaddition with cyclic enones (vide infra). 

Photoinduced reactions of cyclic a-diketones with different alkenes takes place via [2 + 2], [4 + 2] or [4 + 4] photocycloaddition pathways. Photoaddition of electron deficient silyl ketene acetals to 2-, 3- and 4-acetylpyridine generates oxetanes as major products. The reaction is favoured in non polar solvents. The photoreaction between silyl enol ethers and henzil affords [2 + 2] cycloaddition products, while in the case of 9,10-phenanthrenequinone [4 + 2] cycloacidition predominates. Photocycloaddition of p-henzoquinones to hicyclopropylidene affords spirooxetanes (21) as the primacy products further irradiation leads to rearranged spiro[4.5]deca-6,9-diene-2,8-diones. With 9,10-anthraqui-none, in addition to the spirooxetane, a spiro[indan-l,l -phthalan]-3 -one is also obtained. ... 

The induced diastereoselectivity in a Paterno-Biichi reaction resulting from a stereogenic center in the alkene part was recently described by Bach and co-workers in the photocycloaddition of chiral silylenol ethers 67 with benzaldehyde 18. The substituents, R, at the stereogenic center were varied in order to evaluate the influence of steric bulk and possible electronic effects. In accord with the 1,3-aUyhc strain model, the facial diastereoselectivity was at a maximum with large (R = t-Bu, SiMejPh) and polar (R = OMe) substituents at the y-position of silyl enol ether (diastereomeric ratio of oxetanes 68 > 95 5). 

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