Allyl nitro compounds

Mainly allylic esters are used as the substrates for the catalytic reactions. In addition, the allylic compounds shown are known to react with Pd(0) to form TT-allylpalladium complexes. Even allylic nitro compounds[8,9] and sul-fones[KM2] are used for the allylation. The reactivities of these allylic compounds arc very different. 

Allylic nitro compounds form rr-allylpalladium complexes by displacement of the nitro group and react with nucleophiles, and allylation with the tertiary nitro compound 202 takes place at the more substituted side without rearrangement to give 203[8,9,128]. 

Various terminal allylic compounds are converted into l-alkenes at room temperature[362]. Regioselective hydrogenolysis with formate is used for the formation of an exo-methylene group from cyclic allylic compounds by the formal anti thermodynamic isomerization of internal double bonds to the exocyclic position[380]. Selective conversion of myrtenyl formate (579) into /9-pinene is an example. The allylic sulfone 580 and the allylic nitro compound... 

Allylic nitro compounds are obtained by the reacdon of cyclic ketones with nitromethane in the presence of 1,2-diaminoethane fl mol% as catalyst. Because exa-cyclic nitroalkenes are rearranged to the fi)iifo-cyclic fi,Y-nitroalkenes, allylic nitro compounds are selecdvely produced fEq. 3.21. ... 

If iV,iV-dimethylethylenediamine is used as the base, allylic nitro compounds are obtained n good yields from both acyclic and alicyclic ketones fEqs. 3.22 and 3.23. "... 

The Henry reaction of ketones with nitroalkanes in the presence of etbylenediamine gives allylic nitro compounds, which give a,fi-imsanirated carbonyl compounds via the Nef reaction fEq. 6.30. ... 

Recently, elegant synthesis of ruin -MRS carbapenum has been reported. Sequential reaction of nitromethane via conjugate addition-elimination to a,fi-unsanirated esters followed by Pd-catalyzed subsdnidon of the residdng allyl nitro compound with the naphthosultam affords the allyladon product which is an and fEq. 7.20. ... 

The Knoevnagel reaction of 6-methoxytetralc nediamine followed by the nitro-aldol reach allylic nitro compounds Subsequent group Base catalyzed cyclizadon gives the I by radical denitration fsee Section 7 2 ... 

Conjugated nitroalkenes are isomerized to allylic nitro compounds under basic conditions. Reactions of a,P-unsaturated nitro compounds with aldehydes under basic conditions lead directly to y,8-unsaturated P-nitro alcohols (Eq. 3.24). 3 This reaction is very useful for preparing allylic nitro compounds. 

The reaction of conjugated nitroalkenes with oc,P-unsaturated esters, ketones, nitriles, and sulfones is catalyzed by TMG to give the Michael adduct of allylic nitro compounds (Eq. 4.108).142... 

The Michael addition of nitro compounds to electron-deficient alkynes affords allylic nitro compounds in good yields, in which KF-/j-Bu4NC1 in DMSO is used as a base and solvent (Eq. 4.118).161... 

In 1982, a new reaction was reported by Tamura and Ono namely, allylic nitro compounds undergo replacement of the nitro group by various nucleophiles in the presence of a palladium (0) catalyst.17a b 18a b The details of these reactions are discussed in Ref. 2b here, only some typical examples are presented. Carbon, sulfur, nitrogen, and phosphorous centered nucleophiles replace the nitro groups at the allylic positions. The reaction of allylic nitro compounds with triphenylphosphine is applied to the highly stereoselective olefination of aldehydes (Eqs. 7.15-7.18).19... 

Allyl acetates are more commonly used as electrophiles for the palladium-catalyzed allylic alkylation than allylic nitro compounds.20 However, the reaction of allylic nitro compounds has found wider applications. Allylic nitro compounds are readily available by nitration of alkenes. The regio- and stereoselective introduction of electrophiles and nucleophiles into alkenes is possible as outlined in Eq. 7.19. In fact, this strategy is applied to the synthesis of terpenoids.21... 

Lewis acids are also effective to induce the nucleophilic substitution of allylic nitro compounds. These compounds react with allyltrimethylsilane,28 silyl enolates,28 or cy-anotrimethylsilane29 in the presence of SnCl4 to give substitution products, respectively (see Eqs. 7.24-7.26). 

Allylic nitro compounds undergo [2.3]sigmatropic rearrangement to afford rearranged alcohols, as shown in Eq. 7.4346 and Eq. 7.44 47 Because the allylic nitro compounds used in these reactions are readily prepared either by the Henry reaction or the Michael addition, these reactions may be useful in organic synthesis. 

The difficulty in controlling the regiochemistry during radical-denitration of allylic nitro compounds is well known. The migration of the double bond is a serious problem, as shown in Eq. 7.96. This problem is overcome by a hydride transfer reaction in the presence of a palladium catalyst (Eq. 7.97).140... 

The regiochemical control of Pd-catalyzed hydride transfer reaction is much more effective than that of the radical denitration, as shown in Eq. 7.98. The base-catalyzed reaction of nitroolefins with aldehydes followed by denitration provides a new synthetic method of homoallyl alcohols (Eq. 7.99).140 Exomethylene compounds are obtained by denitration of cyclic allylic nitro compounds with Pd(0), HC02H and Et3N (Eq. 7.100).140b... 

A new synthesis of substituted 1,3-dienes by reductive elimination of allylic nitro derivatives has been reported (Eq. 7.134).180 Tertiary allylic nitro compounds, bearing an acetate group in the (3-position, smoothly undergo reductive elimination to give conjugated 1,3-dienes when treated with chromous acetate and 2,2-dipyridine in DMF at 111-120 °C. 

Denitration of ally lie nitro groups " Allylic nitro compounds when com-plexed with Pd(0) are reductively removed by a variety of hydride donors. The regioselectivity of denitration to give 1- or 2-alkenes can be controlled by the choice of ligand and by the hydride donor. Thus reduction by formates gives 1-alkenes, and use of NaBH4 or NaBH,CN favors formation of 2-alkenes. 

Reduction of nitroalkanes RNO2 with samarium(II) iodide, obtained from samarium and 1,2-diiodoethane, yields either alkylhydroxylamines RNHOH or alkylamines RNH2, depending on the amount of the reagent434. The base-catalysed reaction of nitroalkanes with phenyl(vinyl) sulphoxide (399) yields the conjugate adducts 400, which fragment to allylic nitro compounds 401 on thermolysis435. 

Thermolysis of allylic nitro compounds results in the formation of rearranged allyl alcohols the cyclohexene 416, for instance, affords a 4 1 mixture of the cyclohexanol derivatives 417 and 418. It is proposed that the process involves a [2,3] sigmatropic shift of a nitro group (equation 137)451. 

Substitution reactions of allylic nitro compounds often lead to rearranged products, as in palladium(0)-catalysed aminations and alkylations. Thus treatment of the nitro ester 419 with piperidine in the presence of tetrakis(triphenylphosphine)palladium yields a mixture of the unrearranged and rearranged amines 420 (R = piperidin-l-yl) and 421... 

The carbanion derived from dimethyl malonate reacts with the cyclic nitro compounds 422 of ring size 5, 6, 7, 8 and 12 to afford the corresponding esters 423. Acyclic allylic nitro compounds 424 (R = Me, CH2OAC or CC Et) are attacked by bulky nucleophiles, such as dimethyl malonate anion, mainly at the terminal primary carbon atom to give rearranged products 425, whereas smaller nucleophiles, e.g. the anion derived from methyl cyanoacetate, react at the tertiary carbon atom to yield 426409a 453 455. 

Under basic conditions, a-nitroalkenes function as synthetic equivalents of allylic nitro compounds 3-nitro-3-hexene, for instance, reacts with piperidine in the presence of Pd(PPh3)4, to give 2-piperidinyl-3-hexene (equation 139)459. 

Nitroalkanes react with Jt-deficient alkenes, for example, p-nitro ketones are produced from a,P-unsaturated ketones [41], whereas allylic nitro compounds have been prepared via the Michael-type addition of nitroalkanes with electron-deficient alkynes (Table 6.19). The reaction in either dimethylsulphoxide [42] or dimethyl-formamide [43] is catalysed by potassium fluoride in the presence of benzyltriethyl-ammonium chloride the reaction with dimethyl acetylenedicarboxylate is only successful in dimethylsulphoxide [42], Primary nitroalkanes produce double Michael adducts [42,44], A-Protected a-aminoacetonitriles react with alkynes under catalysed solidiliquid conditions to produce the Michael adducts [45] which, upon treatment with aqueous copper(Il) sulphate, are converted into a,p-unsaturated ketones. 

Allylic nitro compounds are reduced by carbon disulphide under mild basic catalytic conditions to yield the conjugated oximes (Scheme 11.7) [8]. The reaction is sensitive to the amount of base used, and benzyltriethylammonium chloride appears to be a better catalyst than tetra-n-butylammonium bromide or hydrogen sulphate. Saturated nitro compounds are not reduced under these conditions. 

Reductive conversion of allylic nitro compounds into conjugated oximes... 

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