Dihydrofurans functions

Preparation of addition polymers having the oxolene (dihydrofuran) functionality can be envisioned to occur in two possible ways (Scheme 13). Both, in fact, have been observed (77MI11102). Whereas furan (53) or its derivatives do not homopolymerize under free radical conditions, 1 1 alternating copolymers possessing the 1,4-structure are produced with maleic anhydride (50). Intermediate formation of a CT complex between monomers (50) and (53) is believed to be necessary before polymerization can occur. On the other hand, cationic polymerization is quite facile. The outcome is straightforward with benzo[f>]furan derivatives, producing 1,2-polymers. Optically active poly(benzofurans) are formed when the cationic polymerizations are conducted in the presence of a chiral anion. 

The results show that the dediazoniations afforded dihydrofuran derivatives which were functionalized exclusively at the site of the cyclized radical (10.58, Z = 0, n = 1) in very good yields for bromination and iodination, and moderate yields for chlorination, phenylthionation, and cyanation. All cyclizations take place in the exo mode, i.e., at the -CH= (second-last) carbon and not at the CH2 group (endo mode for nomenclature see Beckwith et al., 1980). 

The comparison between the cycloaddition behavior of simple diazoketones and of ethyl diazopyruvate 56 towards the same olefin underlines the crucial influence of the ethoxycarbonyl group attached to the carbonyl function. This becomes once again evident when COOEt is replaced by an acetal function, such as in l-diazo-3,3-di-methoxy-2-butanone 86 with enol ethers and acetates, cyclopropanes rather than dihydrofurans are now obtained 113). ... 

The reaction, formally speaking a [3 + 2] cycloaddition between the aldehyde and a ketocarbene, resembles the dihydrofuran formation from 57 a or similar a-diazoketones and alkenes (see Sect. 2.3.1). For that reaction type, 2-diazo-l,3-dicarbonyl compounds and ethyl diazopyruvate 56 were found to be suited equally well. This similarity pertains also to the reactivity towards carbonyl functions 1,3-dioxole-4-carboxylates are also obtained by copper chelate catalyzed decomposition of 56 in the presence of aliphatic and aromatic aldehydes as well as enolizable ketones 276). No such products were reported for the catalyzed decomposition of ethyl diazoacetate in the presence of the same ketones 271,272). The reasons for the different reactivity of ethoxycarbonylcarbene and a-ketocarbenes (or the respective metal carbenes) have only been speculated upon so far 276). 

Heterocycles.—The phosphonium salt (59) is an effective three-carbon synthon, as demonstrated by its reaction with enolates of /9-keto-esters (Scheme 20) to give cyclopentenyl sulphides via an intramolecular Wittig reaction.63 Ylides are also intermediates in the synthesis of dihydrofurans (60) from the cyclopropylphos-phonium salt (61) and sodium carboxylates (Scheme 21).64 Cumulated ylides are very useful for the synthesis of heterocyclic compounds, e.g. (62), from molecules which contain both an acidic Y—H bond and a carbonyl or nitroso-function, as shown in Scheme 22.65... 

Hudlicky and Barbieri (178) developed a simple two-step strategy to generate vinyl oxiranes, and then rearrange the vinyl oxirane to form functionalized dihydrofurans in a formal [2- -3]-annulation process. Both pyrolysis and ring opening with TMSI have been used to initiate the rearrangement process (Scheme 4.90). 

The Ru-catalyzed cycloisomerization of heptadiyne 24 in the presence of a functionalized terminal olefin offers an access to dihydrofurans 25 <99CC237>. 

Titanium tetrachloride promoted coupling of ethyl glyoxylate and dihydrofuran with subsequent reaction of the intermediate with a nucleophilic trapping agent provides a new route to functionalized tetrahydrofurans <99TL1083>. 

The Huang-Minlon reduction of 3-formylfuran surprisingly gave 3-methylene-2,3-dihydrofuran. The product undergoes ene reactions with a number of electron depleted alkenes and provides a route to functionalize the 3-position in furan as shown in Scheme 66 (93TL5221). 

A series of functionalized alkenes has been subjected to selective epoxidation reactions. Oxidation of perfluorinated vinyl polyethers by bubbling oxygen through the liquid that contains a catalytic amount of a Lewis acid, e.g. antimony(V) fluoride, results in the formation of acid fluorides together with a smaller amount of C = C bond cleavage.76 Perfluorinated pentaaIkyI-2.3-dihydrofuran 38, an example of an unsaturated cyclic ether that is quite stable owing to perfluoroalkylation. is epoxidized by hypochlorite to the product 39 at 45 C.62... 

However, the ability of gold(III) chloride to provide protic catalysis under exceptionally mild conditions is further demonstated by two recent examples the hydroxyallene 35 bearing a silyl protecting group is efficiently cyclyzed to give the 2,5-dihydrofuran 36 without deprotection [20] other acidic catalysts which in principle sufficiently promote this type of cyclization - such as HC1 gas or Amberlyst 15 resin - are of course much less compatible with acid sensitive functionalities. Also for the formation of macrocycle 39 gold(III) chloride turned out to be the catalyst of choice [21],... 

The simple diastereoselectivity of the photocycloaddition of electronically excited carbonyl compounds with electron rich olefins was studied as a function of the substituent size—at identical starting conditions ignoring the electronic state involved in the reaction mechanism [123], The [2+2] photocycloaddition of 2,3-dihydrofuran with different aldehydes in the nonpolar solvent benzene resulted in oxetanes 118 with high regioselectivity and suprising simple diastereoselectivites the addition to acetaldehyde resulted in 45 55 mixture of endo and exo diastereoisomer, with increasing the size of the ot-carbonyl substituent (Me, Et, i-Bu, t-Bu), the simple diastereoselectivity increased with preferential formation of the endo stereoisomer (Sch. 37). 

Dialkyl and alkyl aryl ethers are cleaved by Si2I2887, by SiCl/Nal888 or by Me3SiCl/NaI889. The latter afford the functionalized erythro- 1,2-diols via hydroboration of 2-alkyl-4,5-dihydrofurans (equation 129)890. 

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