Cyclic ketene

In context with the formation of peraminosubstituted 1,4,5,8-tetraazaful-valenes of type 85 it must be mentioned that the bis-vinylogous compounds 94 can be easily prepared by reaction of acetamidine with bisimidoylchlo-rides derived from oxalic acid (96S1302). In the course of a complex reaction a cyclic ketene aminal was produced it immediately underwent an oxidative dimerization to yield deeply colored TAFs. Tlieir high chemical stability can be compared with that of indigoid dyes and manifests itself, for example, by the fact that they are soluble in hot concentrated sulfuric acid without decomposition. Tire same type of fulvalene is also available by cy-... 

Other non-traditional preparations of 1,2,3-triazoles have been reported. The rearrangement in dioxane/water of (Z)-arylhydrazones of 5-amino-3-benzoyl-l,2,4-oxadiazole into (2-aryl-5-phenyl-27/-l,2,3-triazol-4-yl)ureas was investigated mechanistically in terms of substituents on different pathways <06JOC5616>. A general and efficient method for the preparation of 2,4-diary 1-1,2,3-triazoles 140 from a-hydroxyacetophenones 139 and arylhydrazines is reported <06SC2461>. 5-Alkylamino-] //-], 2,3-triazoles were obtained by base-mediated cleavage of cycloadducts of azides to cyclic ketene acetals <06S1943>. Oxidation of N-... 

Bromoacetals in basic media can be converted to cyclic ketene acetals (Eq. 51). These -eliminations, previously performed under solid-liquid PTC without solvent and with sonication [70], were further improved by microwave irradiation (Tab. 5.22) [71]. 

Partially saturated derivatives can also be prepared through aryl radical cyclization of A-2-halobenzoyl cyclic ketene-iVA-acetals <2005TL3801>. In this event, treatment of ketene-acetal 418 with Bu3SnH afforded good yield of cyclized products 419 and 420, as a mixture of two diastereoisomers, but with a total regioselectivity (Scheme 108). 

Treatment of the cyclic ketene aminal 267 with diethyl azodicarboxylate results in formation of the reduced ring system 268 (Equation 52), probably via an initial aza-ene reaction, followed by fragmentation and ring closure <2002T7791>. 

Cyclic ketene acetals, which have utility as co-polymers with functional groups capable of cross-linking, etc., have been prepared by the elimination of HX from 2-halomethyl-l,3-dioxolanes. Milder conditions are used under phase-transfer conditions, compared with traditional procedures, which require a strong base and high temperatures. Solid liquid elimination reactions frequently use potassium f-butoxide [27], but acceptable yields have been achieved with potassium hydroxide and without loss of any chiral centres. The added dimension of sonication reduces reaction times and improves the yields [28, 29]. Microwave irradiation has also been used in the synthesis of methyleneacetals and dithioacetals [30] and yields are superior to those obtained with sonofication. 

For this reason, a reinvestigation of the cyclic ketene acetal, 2-methylene-l,3-dioxolane (I), that had been prepared by McElvain and Curry (14) was undertaken. Although McElvain and Beyerstedt (15) reported that benzoyl peroxide had no appreciable effect on diethyl ketene acetal, no such study was reported (14) for the 2-methylene-l,3-dioxolane (I). The synthesis was carried out as follows (6) ... 

Related work had shown that the nitrogen analogs of the cyclic ketene acetals were readily synthesized and would polymerize with essentially 100% ring opening. For this reason their copolymerization with a variety of monomers was undertaken (6). 

Since the cyclic ketene acetal V will undergo free radical polymerization to produce an ester group, a study was undertaken to see if... 

Free Radical Peroxides (monomers cyclic ketene acetals)... 

This indicates the possibility of making addition polymers biodegradable by the introduction of ester linkages in to the backbone. Since the free radical ring-opening polymerization of cyclic ketene acetals, such as 2-methylene-1,3-dioxepane (1, Scheme I), made possible the introduction of ester groups into the backbone of addition polymers, this appeared to be an attractive method for the synthesis of biodegradable addition polymers. 

Aliphatic polyesters occupy a key position in the field of polymer science because they exhibit the remarkable properties of biodegradability and biocompatibihty, which opens up a wide range of applications as environmentally friendly thermoplastics and biomaterials. Three different mechanisms of polymerization can be implemented to synthesize aliphatic polyesters (1) the ring-opening polymerization (ROP) of cyclic ketene acetals, (2) the step-growth polymerization of lactones, and (3) the ROP of lactones (Fig. 1). 

The first route relies on the ROP of cyclic ketene acetals [1-3]. The electron-rich double bond is prone to react with radicals and electrophiles. Therefore, this class of monomers undergoes cationic and radical polymerization. For example, radical initiators react with the double bond to provide a new tertiary radical (Fig. 2). Two distinct mechanisms of polymerization can then take place direct vinyl polymerization or indirect ring opening of the cycle accompanied by the formation of a new radical, which is the propagating species (Fig. 2). The ester function is formed... 

Fig. 2 Synthesis of aliphatic polyester by ROP of cyclic ketene acetals I radical initiator...

Agarwal S (2010) Chemistry, chances and limitations of the radical ring-opening polymerization of cyclic ketene acetals for the synthesis of degradable polyesters. Polym Chem 1 953-954... 

N-Methylation of 139 with iodomethane in nitromethane afforded 2,3,4,4,6-pentamethyl-5,6-dihydro-4/7-oxazi-nium iodide 140. Deprotonation of 140 with sodium hydride resulted in formation of the cyclic ketene-A, 0-acetal derivative tetrahydro-l,3-oxazine 141 (Scheme 21) <2006JC0262>. 

Dihydrofurans (and other cyclic ketene trimethylacetals) add electron deficient alkynes to give the corresponding [2+2]-cycloadducts. Ring opening with BFs-OEta yields tetrahydro-furan derivatives <99TL839>. 

Similar experiments were also carried out with dichloroketene diethyl and dimethyl acetals but no intermediate could be detected. This is readily explained since the cyclic ketene acetals undergo acid-catalysed hydration about 30 times more rapidly than the corresponding acyclic ones (Straub, 1970 Chiang et al., 1974 Kresge and Straub, 1983) whereas cyclic hemi-orthoesters undergo acid-catalysed breakdown 50-60 times more slowly than the corresponding acyclic ones do (see p. 70). Therefore the ratio of rate constants favourable for the detection of the cyclic hemiorthoesters becomes unfavourable with the acyclic hemiorthoesters. 

Photosynthesis of azo-dyestuffs has been reported to be effected by the irradiation of o-quinone diazides. The reaction proceeds via the contraction of the diazide CCXV to the cyclic ketene CCXVI which adds water to form the eyclopentadiene carboxylic acid CCXYII. The latter couples with unchanged CCXV (obtained from 2-amino-l-phenol-4-sulfonic acid) to form the azo-dyestuff CCXVTII.270 Similarly, V-heterocyclic azo-dyestuffs, e.g., CCXX is obtained by the photolysis of CCXIX.275... 

Cycloaddition reactions were also carried out using l,2-bis(trifluoromethyl)-fumaronitrile (137,138,191,192). Seven-membered cyclic ketene imines (186-188) could actually be isolated in good yields from the reactions with 69,... 

Triazines are generally more reactive in [2 + 4] cycloaddition in comparison with 1,2,3-tria-zines. The wide variety of dienophiles can be employed enamines, enaminones, vinyl silyl ethers, vinyl thioethers, cyclic ketene jV,O-acetals, /V-phenylmaleimide, 6-dimethylaminopentafulvene, 2-alkylidene-imidazolidines (cychc ketene aminals), cyclic vinyl ethers, arynes, benzocyclopropene, acetylenes, and alkenes like ethylene, (Z)-but-2-ene, cyclopentene, cyclooctene and bicyclo[2.2.1]hept-2-ene, hexa-1,5-diene, cycloocta-1,5-diene, diallyl ether, cyclododeca-l,5,9-triene,... 

Gonzalez et al. [105] have further investigated the diastereoselective [2+2] cycloaddition reaction of unsymmetrical cyclic ketenes with imines for the synthesis of a variety of spiro-(3-lactams (Scheme 34). 

Scheme 34 Preparation of spiro-(3-lactams using unsymmetrical cyclic ketenes...

Spiro-p-lactams have been synthesized via [2+2] cycloaddition of cyclic ketenes with imines [100]. Opposite trans or cis diastereoselectivity was obtained using different imines with electron-donating or electron-withdrawing (R1) substituents at the N-atom, (Scheme 33). 

The cyclic ketenes were generated from /V-acy 1-1,3-thiazolidine-2-carboxylic acids by means of Mukaiyama s reagent. The same reaction generated enantio-merically pure 1,3-thiazolidine-derived spiro-p-lactams, using optically active /V-A rt-butoxycarbonyl-1,3-thiazolidine-2-carboxylic acid derivatives as precursors of the asymmetrical chiral cyclic ketenes (7< r/-butoxy carbonyl Boc) [101]. 

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