Oximes free radicals

In the Bartlett monosaccharide-oxime free-radical cyclisation reaction,13 the thionocarbonylimidazolide grouping is initially attacked by a tri-n-butyltin radical at its sulfur terminus (Scheme 11.9). This leads to a highly... 

Alkyl Co oxime complexes have been used as chain transfer catalysts in free radical polymerizations.866,867 Regioselective hydronitrosation of styrene (with NO in DMF) to PhCMe=NOH is catalyzed by Co(dmg)2(py)Cl in 83% yield.868,869 Catalytic amounts of the trivalent Co(dmg2tn)I2 (192) (X = I) generate alkyl radicals from their corresponding bromides under mild reaction conditions, allowing the selective preparation of either saturated or unsaturated radical cyclization products.870... 

Products isolated from the thermal fragmentation of A-arylbenzamide oximes and A-arylbenzamide O-phenylsulfonyl oximes have been accounted for by invoking a free-radical mechanism which is initiated by the preferential homolysis of the N-O bond." Time-resolved IR spectroscopy has revealed that photolysis of A, A -diphenyl-l,5-dihydroxy-9,10-anthraquinone diimine affords acridine-condensed aromatic products via excited-state intramolecular proton transfer." The absolute and relative rates of thermal rearrangements of substituted benzyl isocyanides have been measured,and it has been found that the relative rates are independent of temperature and exhibit excellent Hammett correlations. Thionitrosoarene (25), thought to be generated by desulfurization of the stable A-thiosulfinylaniline (24), has been established" " as an intermediate in the formation of 3,3a-dihydro-2,l-benzisothiazole (26) from o-alkylthionitrosoarene (24). 

B. Free Radical Additions to Oximes, Oxime Ethers and Nitrones. 142... 

Free radical addition to oximes and oxime ethers emerged as a useful alternative to addition of organometallic reagents, particularly for intramolecular reactions. The most important advantage of free radical V5. organometallic addition is its tolerance for almost any functional group (with the exception of thiocarbonyl and iodoalkyl functions). 

Free radicals generated by zinc and alkyl iodides easily add to oxime ethers (e.g. 106, equation 75), providing good yield of corresponding hydroxylamines 107. This reaction has also been performed in solid-phase bound oxime ethers. ... 

Recently, Kim and colleagues have described a new efficient method for the preparation of a-keto esters 48 via a free-radical acylation approach using (phenylsulfonyl) methoxycarbonyl oxime ether 46 as carbonyl equivalent radical acceptor (Scheme 28). The oxime 46 was conveniently prepared from readily available methylphenylsulfonyl acetate 44 by a two-step sequence (via oxime 45) as shown in Scheme 28. Nitrosation of 44 with isoamyl nitrite in the presence of sodium methoxide gave oxime 47 in 78% yield. 

A free radical cyclization of oxime ethers tethered to an aldehyde has been used in the synthesis of azepine derivatives . For example, oxime ether 389 is cyclized to azepine 390 by reaction with Sml2 in HMPA and f-BuOH at —78°C (equation 170) . Similar free radical cyclization of oxime ethers can be carried out also in the presence of Bu3SnH/AIBN in benzene . Oxime 0-methyl ether 391 underwent thermal cyclization in refluxing o-dichlorobenzene (ODCB) leading to the mixture of two products 392 and 393 in ratio 69 31 in overall yield of 91% (equation 171) °. Rearrangement of oxime 0-tosylates in the presence of piperidine also leads to azepine ring formation . ... 

Synthesis of 1,2,3-dithiazoles is the most extensively studied. The widely used and very long-known Herz reaction of arylamines with S2CI2 to give benzo-l,2,3-dithiazolium salts (Section 4.11.8.5) has been extended to hetarylamines (Scheme 17). More importantly, a new impetus for its investigation and development was provided when benzo-l,2,3-dithiazolyl radicals were shown by Mayer and co-workers to be intermediates. The reaction in a modified form was transformed by the above authors to an effective method for synthesis of this new class of stable radicals. When applied to acyclic enaminoketones the thiosulfinylamine precursor of the free radical could be isolated (Scheme 18). It was also extended to cyclic and acyclic oximes to afford fused and monocyclic... 

An alkyl group (primary, secondary, or tertiary) can be added to the oxime ether CHr=NOCH2Ph by treatment with the appropriate alkyl halide and an equimolar amount of bis(trimethylstannyl)benzopicolinate.483 This reaction, which is a free radical addition, is another way to extend a chain by one carbon. 

The oxime 39 bearing a nitroxyl group (X = O) can be converted to the corresponding azaindole 40 without affecting the free-radical center (yield 6S%, nonoptimized conditions). It follows that (i) the presence of the nitroxyl function in ketoximes does not impede their pyrrolization by the reaction with acetylene in a superbase medium, and (ii) the acetylene-involved pyrrolization of ketoximes in the presence of superbase does not show any clearly defined radical stage, otherwise the nitroxyl center would have acted as a spin trap, thus inhibiting the reaction. 

First, one had to check that the mechanism of action was correct. The product of co-ozonlysis of O-methyl-2-adamantanone oxime with 1,4-cyclohexanedione afforded on treatment with ferrous acetate a secondary carbon-centered free radical that was trapped with the usual spin trap, 2,2,6,6-tetramethylpiperidine-Ar-oxide (TEMPO), and involved a /3-scission of the adamantane fragment, thus proving that the attack of the Fe(ll) species occurred on the less-hindered peroxide bond oxygen atom (Scheme 85) <2004NAT900, 2005JOC513>. 

An asymmetric synthesis of aminocyclopentitols 134-137 has been used in the synthesis of trehazolin via free-radical cycloisomerization of enantiomerically pure, alkyne-tethered oxime ethers derived from D-mannose (Scheme 17).84 Treatment of 2,3 5,6-di-(9-isopropylidene-D-mannofuranose (128)85 with ethynylmagnesium bromide gave compound 129, which underwent sequential one-pot acid hydrolysis plus diol cleavage to give 130, oximation of which afforded the radical precursor 131, in 41% overall yield from 129. The free hydroxyl group of 131 was protected as acetate 132 and tert-butyldimethylsilyl ether 133, which were isolated as inseparable... 

J. Marco-Contelles, C. Destabel, P. Gallego, J. L. Chiara, and M. Bemabe, A new synthetic approach to the carbocyclic core of cyclopentane-type glycosidase inhibitors Asymmetric synthesis of amino-cyclopentitols via free radical cycloisomerization of enantiomerically pure alkyne-tethered oxime ethers derived from carbohydrates, J. Org. Chem., 61 (1996) 1354-1362. 

Beckmann rearrangement of 2,2,6,6-tetramethyl-4-piperidone oxime with thionyl chloride followed by oxidation gave the stable free radical 159.167 Beckmann rearrangement of the N-oxide radical of the piperidone oxime gave the same free radical (159).168... 

Nitrosolysis of camphor ethyl acetal with ethanolic ethyl nitrite in sulphur dioxide yields the orthoester oxime (205) which is rapidly dehydrated by excess acetal to the orthoester nitrile which then reacts with sulphur dioxide to form the ester nitrile and diethyl sulphite.Further papers in this section include the full paper on ozonolysis of silyl ethers (Vol. 5, p. 33), another synthesis of camphor-enol trimethylsilyl ether (cf. Vol. 6, p. 41)/°° the conversion of camphor oxime with Grignard reagents into the corresponding imine with no aziridine formation/° the preparation of (206) by treating bornylene with trichloroacetyl isocyanate/ the oxidation of thiocam-phor to the 5-oxide and alkylation in the presence of thallium(i) ethoxide to a/S-unsaturated sulphoxides/ and the free-radical C-3 alkylation of camphor with alkenes. " ... 

Up until the end of the 1980s, radical carbonylation chemistry was rarely considered to be a viable synthetic method for the preparation of carbonyl compounds. In recent years, however, a dramatic change has occurred in this picture [3]. Nowadays, carbon monoxide has gained widespread acceptance in free radical chemistry as a valuable Cl synthon [4]. Indeed, many radical methods can allow for the incorporation of carbon monoxide directly into the carbonyl portion of aldehydes, ketones, esters, amides, etc. Radical carboxylation chemistry which relies on iodine atom transfer carbonylation is an even more recent development. In terms of indirect methods, the recent emergence of a series of sulfonyl oxime ethers has provided a new and powerful radical acylation methodology and clearly demonstrates the ongoing vitality of modem free radical methods for the synthesis of carbonyl compounds. 

Recently the same group reported new free radical-mediated tandem reactions of oxime ethers for the synthesis of heterocycles via two C-C bond-forming... 

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