Radical-chain cyclizations

Radical cyclizations of this type can be also achieved in chemical radical chain reactions [124, 125], often in a wider scope. The anodically initiated cyclization, however, has advantages. It avoids tin hydride, which is mostly used as coreagent in chemical radical chain cyclizations and because the toxicity of tin organics makes these reactions less attractive for the synthesis of pharmaceuticals. In chemical radical chain reactions, which involve in most cases an addition and an atom-transfer reaction, one C,C- and one C,H- or C,X bond is being formed, while in anodic addition followed by heterocoupling two C,C bonds are being formed, where the second one is established simply and in wide variety by the appropriate choice of the coacid. 

Radical-chain cyclization of alkenyloxysilanes using thiol catalysts give five-membered ring products (via a 5-endo cyclization) in the case of allyloxysilanes... 

Allyloxysilanes (14) undergo radical chain cyclization in the presence of di-tert-butyl hyponitrite as radical initiator and thiol as a catalyst at ca 60 °C (Reaction 6.3) [5]. The thiol promotes the overall abstraction from the Si—H moiety as shown in Scheme 6.4 and the silyl radical undergoes a rapid 5-endo-trig cyclization. Indeed, EPR studies on the reaction of t-BuO radical with silanes 14 detected only spectra from the cyclized radicals even at — 100°C, which implies that the rate constants for cyclization are > 10 s at this temperature. 

Work in the group of Speckamp has shown that C-Cl bonds in a captodative position are weak enough to lead to radical chain cyclization reactions by chlorine atom transfer [28], Chlorine atom transfer from 34 to the catalyst, Cu Cl-bipyridine, leads to radical 35 which then undergoes 5-exo intramolecular addition to form the proline derivative 36 (Eq. 1). The captodative substitution is necessary for this radical process in the absence of an electron-withdrawing substituent, a cationic reaction leading to a piperidine occurs instead [29]. 

Scheme 15. Radical-chain cyclization of unsaturated acetals using polarity reversal catalysis...

Thiol-catalyzed Radical-chain Cyclization of Unsaturated Acetals and Thioacetals. When the unsaturated dioxolane 1 and a radical initiator, 2,2-di(t-butylperoxy)butane (DBPB), were heated at 125 °C in octane in the presence of tri(f-butoxy) silanethiol (TBST), the spirocyclic ketal 2 was formed cleanly and isolated in 92% yield (eq 1). When the reaction was performed in the absence of TBST, compound 2 was not detected. TBST is... 

Wawzonek et al. first investigated the mechanism of the cyclization of A-haloamines and correctly proposed the free radical chain reaction pathway that was substantiated by experimental data. "" Subsequently, Corey and Hertler examined the stereochemistry, hydrogen isotope effect, initiation, catalysis, intermediates, and selectivity of hydrogen transfer. Their results pointed conclusively to a free radical chain mechanism involving intramolecular hydrogen transfer as one of the propagation steps. Accordingly, the... 

Cyclic ethers were also obtained by cyclization of alkoxyl radicals, generated in a radical chain reaction by reacting the thione 42 with (TMSfsSiH under photochemical conditions at 20 °C (Reaction 46). Regioselectivities of cyclization have been investigated and a progressive increase of the 6-endo-trig selectivity along the series R2 = H[Pg.140]

The N,0- and N,S-heterocyclic fused ring products 47 were also synthesized under radical chain conditions (Reaction 53). Ketene acetals 46 readily underwent stereocontrolled aryl radical cyclizations on treatment with (TMSlsSiH under standard conditions to afford the central six-membered rings.The tertiary N,0- and N,S-radicals formed on aryl radical reaction at the ketene-N,X(X = O, S)-acetal double bond appear to have reasonable stability. The stereoselectivity in hydrogen abstractions by these intermediate radicals from (TMSlsSiH was investigated and found to provide higher selectivities than BusSnH. 

Free-radical chain reactions have been reviewed60. The cyclization of dienes by the action of free radicals is illustrated for the case of the 1,6-heptadiene derivative 90 (E = CC Me) in equation 56. Treatment with tosyl radicals, produced from tosyl chloride and a catalytic amount of dibenzoyl peroxide, generates the radicals 91, which cyclize to 92. The latter reacts with tosyl chloride to form 93 and tosyl radicals are regenerated. The product is obtained in 85% yield as a 6 1 mixture of cis- and fraws-isomers61. 

The propensity of organotin hydrides for SET reactions has been utilized to initiate radical chain reactions. Anodically promoted oxidation of Ph3SnH to [Ph3Sn] at 0.80 V (vs SCE) initiates the cyclization of several haloalkyne and haloalkene ethers as well as of some fi-lactam derivatives. The catalytic cycle shown in Scheme 1 is based on... 

Curran2 has reviewed recent applications of the tin hydride method for initiation of radical chain reactions in organic synthesis (191 references). The review covers intermolecular additions of radicals to alkenes (Giese reaction) as well as intramolecular radical cyclizations, including use of vinyl radical cyclization. 

Radiative cooling, 23 13-14 Radiative heating/cooling, 23 25-26 Radical catalysts, 14 274 Radical cations, 12 249 Radical chain reactions, 14 274 Radical cyclization approach, 21 147 Radical decomposition reaction, 10 600 Radical generating systems, alternative, 14 299... 

For reviews of chemical approaches to radical cyclization reactions see a) Motherwell WB, Crich D (1992) Free radical chain reactions in organic synthesis, Academic Press, London, b) Giese B (1986) Radicals in organic synthesis formation of carbon-carbon bonds, Pergamon, Oxford, and c) Jasperse CP, Curran DP, Fevig TL (1991) Chem Rev 91 1237... 

The sterically hindered base 2,6-bis(tert-butyl)pyridine does not inhibit cyclization triaryl-amine retards this reaction photosensibilized one-electron oxidation of a diene leads to the same products, which are formed in the presence of ammoniumyl salt. As shown, in majority of cases, only the cation-radical chain mechanism of the diene-diene cyclization is feasible (Bauld et al. 1987). Meanwhile, cyclodimerizations of 2,4-dimethylpenta-l,3-diene (Gassman and Singleton 1984) and l,4-dimethylcyclohexa-l,3- or -1,4-diene (Davies et al. 1985) proceed through both mechanisms. 

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