Hydrogen atom transfer reactions radical cyclizations

Examples of stereoselective cyclizations involving heteroatom radicals are rare. Tandem oxy radical cyclization and diastereoselective hydrogen atom transfer reactions, however, have also been studied (Eq. (13.58)) [74]. These reactions take advantage of chirality at the y carbon to induce anti-/ cycloaddition. Hydrogen... 

Useful synthetic methodologies are based on the cyclization or rearrangement of the nitrogen-centered radicals generated in the reaction of the appropriate amides with (diacetoxyiodo)benzene in the presence of iodine [652-655]. Specific examples are illustrated by the synthesis of bicyclic spirolactams 622 from amides 621 [653] and preparation of the oxa-azabicyclic systems (e.g., 624) by the intramolecular hydrogen atom transfer reaction promoted by carbamoyl and phosphoramidyl radicals generated from the appropriately substituted carbohydrates 623 (Scheme 3.244) [654],... 

It is important to emphasize that the hydroxy dithioketal cyclization can be conducted under mild reaction conditions and can be successfully applied to a variety of substrates.15 However, the utility of this method for the synthesis of didehydrooxocane-contain-ing natural products requires the diastereoselective, reductive removal of the ethylthio group. Gratifyingly, treatment of 13 with triphenyltin hydride and a catalytic amount of the radical initiator, azobisisobutyronitrile (AIBN), accomplishes a homolytic cleavage of the C-S bond and furnishes didehydrooxocane 14 in diastereo-merically pure form (95 % yield), after hydrogen atom transfer. 

As with carbocation-initiated polyene cyclizations, radical cyclizations can proceed through several successive steps if the steric and electronic properties of the reactant provide potential reaction sites. Cyclization may be followed by a second intramolecular step or by an intermolecular addition or alkylation. Intermediate radicals can be constructed so that hydrogen atom transfer can occur as part of the overall process. For example, 2-bromohexenes having radical stabilizing substituents at C(6) can undergo cyclization after a hydrogen atom transfer step.348... 

An interesting intramolecular radical cyclization followed by enantioselective hydrogen atom transfer has recently been reported (Scheme 11) [40]. This reaction is carried out in the presence of a chiral complexing agent 38, which... 

It was reported that Pd(0)-catalyzed coupling reactions of allenic alcohols, amines and acids with hypervalent iodonium salts afforded cyclized heterocyclic tetrahydrofurans, tetrahydropyrans, pyrrolidines, piperidines, or lactones under mild conditions <99SL324>. Intramolecular 1,5-hydrogen atom transfer radical cyclization reaction of pyrrolidine derivatives was examined. Reaction of 3,4-dialiyloxy-JV-(0-bromobenzyl)pyrtolidine gave hexahydro-... 

The hydrogen atom transfer method is most useful for electrophilic radicals (for example, malonate, acetoacetate, etc.). Because radicals are generated from C—H bonds, the preparation of cyclization precursors by alkylation is routine. The hydrogen atom transfer method is very good for conducting slow cyclizations. In addition reactions, the hydrogen donor is typically used in large excess relative to the acceptor to facilitate H-transfer however, cyclizations must use different conditions because the H-donor and the alkene acceptor are in the same molecule. 

Iodine atom transfer reactions between alkyl radicals and iodocarbonyls are very rapid (107 M-1 s-1 to 109 M-1 s-1).130 This means that, even when these iodides are cyclized by the tin hydride method, iodine atom transfer may supersede hydrogen transfer, and the reductively cyclized product will ultimately be derived from the reduction of a cyclic iodide. Tin hydride cyclizations of halocarbonyls also often require very low concentration to avoid reduction of the initial radical prior to cyclization. For these reasons, reductively cyclized products are best formed by atom transfer cyclization at high concentration, followed by reduction of the product in situ. In a recent full paper, we have described in detail the preparative and mechanistic features of these cyclizations,19 and Jolly and Livinghouse have reported a modification of our reaction conditions that appears to be especially useful for substrates that cyclize very slowly.131 Cyclizations of a-iodocarbonyls can also be promoted by palladium.132... 

Cyclizations of aromatic diazonium salts138 (intramolecular Meerwein arylations) are pieparatively related to atom transfer reactions because a radical cyclization is terminated by the transfer of an atom or group other than hydrogen. However, the two methods are not mechanistically related. In the atom transfer method, the atom that is transferred to the cyclic product always derives from the radical precursor, but in the cyclizations of aryldiazonium salts, die atom or group transferred derives from an added reagent. This means that many different products can be prepared from a single diazonium precursor, but it... 

Both of the above reaction pathways are suppressed if 443-D and perdeuteriated solvents are used simultaneously in cyclization reaction 265. Mainly oligomer and less than 5% of alkane 450 were then produced. This has been explained by different reactivities of radical 445 formed directly from 444 or formed by abstraction of hydrogen atom from 443 through complex 453. The more energetic radicals formed by hydrogen atom transfer from 443, add intermolecularly to an alkene and initiate preferentially oligomerization512, while... 

Intramolecular 1,5-hydrogen atom transfer cyclizations.3 In reactions with low concentrations of the tin hydride (14,313), an original vinyl radical can undergo a 1,5-hydrogen shift to produce a new radical from a C—H bond, which then undergoes cyclization (equation I). 

The strong prevalence for allyl radicals to cyclize in 5-exo fashion as well as the accelerating effect of geminal diester substitution was also observed in iodide atom transfer reactions of ally lie iodides. The ratio of S-exo to 6-endo product is even higher than for hydrogen trapping, probably also due to the lower temperature in this photolytically initiated reaction (equation 6). Allylic dimers were again isolated as side products. No... 

Similar reactions occur with TV-nitrosoamines R2-NNO and /V-nitrosoamides RC0(R )NN0.70 Apart from the intramolecular hydrogen atom transfer, diverse intramolecular radical additions (cyclizations) and other rearrangements have also been used to obtain cross-reaction products between NO and the radicals resulting from the transformation of the primarily formed R to another radical R. 69 70 Giving evidence for the persistent radical effect, the yields of the desired products are large and those of the selftermination of the transient intermediates are low,... 

Iminyl radicals are particularly useful for the construction of nitrogen heterocycles, since the cyclization products are functionally disposed for further elaboration into a variety of useful systems. Zard and coworkers have pioneered the development of methodology for the generation and cyclization of iminyl radicals (Table 8) [5, 71]. Iminyl radicals cyclize one order of magnitude more rapidly than the related neutral aminyl radicals but react less rapidly than the aminyl radicals with hydrogen atom transfer trapping agents, and one would predict that iminyl radicals formed in chain reaction sequences could prove to be as versatile as carbon radicals [78]. 

---