Cyclization electron transfer

Keywords Catalysis Cyclizations Electron transfer Radicals Tandem reactions... 

Keywords Addition Catalysis Cross-coupling Cyclization Electron transfer Radicals Transition metals... 

The proposed mechanism for the conversion of the furanone 118 to the spiro-cyclic lactones 119 and 120 involves electron transfer to the a -unsaturated methyl ester electrophore to generate an anion radical 118 which cyclizes on the /3-carbon of the furanone. The resulting radical anion 121 acquires a proton, giving rise to the neutral radical 122, which undergoes successive electron transfer and protonation to afford the lactones 119 and 120 (Scheme 38) (91T383). 

Many anodic oxidations involve an ECE pathway. For example, the neurotransmitter epinephrine can be oxidized to its quinone, which proceeds via cyclization to leukoadrenochrome. The latter can rapidly undergo electron transfer to form adrenochrome (5). The electrochemical oxidation of aniline is another classical example of an ECE pathway (6). The cation radical thus formed rapidly undergoes a dimerization reaction to yield an easily oxidized p-aminodiphenylamine product. Another example (of industrial relevance) is the reductive coupling of activated olefins to yield a radical anion, which reacts with the parent olefin to give a reducible dimer (7). If the chemical step is very fast (in comparison to the electron-transfer process), the system will behave as an EE mechanism (of two successive charge-transfer steps). Table 2-1 summarizes common electrochemical mechanisms involving coupled chemical reactions. Powerful cyclic voltammetric computational simulators, exploring the behavior of virtually any user-specific mechanism, have... 

Novi and coworkers124 have shown that the reaction of 2,3-bis(phenylsulfonyl)-l,4-dimethylbenzene with sodium benzenethiolate in dimethyl sulfoxide yields a mixture of substitution, cyclization and reduction products when subjected at room temperature to photostimulation by a sunlamp. These authors proposed a double chain mechanism (Scheme 17) to explain the observed products. This mechanism is supported by a set of carefully designed experiments125. The addition of PhSH, a good hydrogen atom donor, increases the percent of reduction products. When the substitution process can effectively compete with the two other processes, the increase in the relative yield of substitution (e.g., with five molar equivalents of benzenethiolate) parallels the decrease in those of both cyclization and reduction products. This suggests a common intermediate leading to the three different products. This intermediate could either be the radical anion formed by electron transfer to 2,3-bis(phenylsulfonyl)-l,4-dimethylbenzene or the a radical formed... 

Ketoaldehydes and 1,4-diketones are reduced to cA-cyclopentanediols 258 1,5-Diketo compounds can be cyclized to cyclopentanediols, again with a preference for cis-diols.259 These reactions are believed to occur through successive one-electron transfer, radical cyclization, and a second electron transfer with Sm2+ ether serving as a tether and Lewis acid, as well as being the reductant. 

Sml2 has also been used to form cyclooctanols by cyclization of 7,8-enones.262 These alkene addition reactions presumably proceed by addition of the ketyl radical to the double bond, followed by a second electron transfer. 

Scheme 5.1. Stereoselective domino cyclization via photoinduced electron-transfer reaction.

Scheme 5.3. Cyclization of polyalkene by photoinduced electron transfer.

Photosensitized electron transfer cyclization of compound 173 to pyridazinooxadiazine 160 by UV irradiation in the presence of 1,4-dicyanonaphthalene (DCN) and methyl viologen (MV) was carried out. The cyclized product was obtained as a diastereomeric mixture with a 7 1 diastereomeric ratio m-stereochemistry between H-2 and H-9 was established for the major product (Equation 26) <1997TL9073>. 

Other radical cyclization approaches to the synthesis of piperidines include a CAN-mediated stereoselective cyclization of epoxypropyl cinnamyl amines <06TL705> and a cyclization of (-trimethylsilylmethylamine radical cation, generated via a photoinduced electron transfer reaction to a tethered -functionality <06JOC8481>. 

The electron-transfer formulation in equation (23) was further substantiated by Ashby et al.49 by using cyclizable probes for the detection of alkyl radicals from the mesolytic scission of RMgX+ (Scheme 10). 

In the oxygen-independent Type III reactions the excited/sensi-tized psoralen donates its excitation energy directly to, or reacts with, the target compound. This occurs if the substrate and the target compound (e.g., DNA) are already in close proximity or intercalated. The reactions will proceed very rapidly via the excited singlet state, and are, typically, cyclization reactions or electron-transfer between the sensitizer and the target. In addition, the psoralen can be ionized, either directly or via the excited state, and react with the target compound in the form of a radical cation. Furocoumarins are also employed in treatment of cutaneous T-cell lymphoma and some infections connected with AIDS, by so-called photopheresis processes [71, 74-76]. In this case, peripheral blood is exposed to, e.g., photoactivated (sensitized) 8-methoxypsoralen (8-MOP) in an extracorporeal flow system. This... 

The (3-metaloxy radical was first exploited for synthetic purposes in C—H and C—C bond-forming reactions by Nugent and RajanBabu through the use of titanocene(III) chloride as an electron-transfer reagent [5]. They established that the (3-titaniumoxy radicals formed after electron transfer can be reduced by hydrogen atom donors, e. g. 1,4-cy-clohexadiene or tert-butyl thiol, that they add to a,(3-unsaturated carbonyl compounds, and that they can react intramolecularly with olefins in 5-exo cyclizations. 

Intramolecular electron transfer initiated cyclization reaction of 7V-allyliminium salt systems may also generate 3-pyrrolidinyl ethers or alcohols in monocyclic and bridged or fused bicyclic systems (e.g. equations 63 - 65)122,123. 

Selective generation of 2-aza-l,5-diradicals 146 through nucleophilic addition to the less substituted positions of the cation radicals 145 arising by intramolecular electron transfer was attributed to the cyclization regiochemistry (equation 66). 

The presence of hetero-atoms within the system, remote from the alkene double bonds, does not have an adverse influence on the SET processes that occur. Thus irradiation of the diene 33 in benzene solution with 1,4-dicyanonaphthalene as the electron-transfer sensitizer affords the cyclobutane 34 in 78% yield. Various examples of the reaction were described giving cyclobutane derivatives in 54-69% yield. Benzene, or an arene solvent, is vital for the success of the reaction. When acetonitrile is used, allylation of the sensitizer (akin to the photo-NOCAS reaction) results in the formation of the three products 35-3718. (2 + 2)-Cyclization of this type described for 33 is also seen with the dialkenyl ether 38. When 38 is irradiated using X > 350 nm or X > 450 nm in acetonitrile... 

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