Three-component alkylations

To enhance the efficiency of the cyanide addition, these workers subsequently reported a three-component asymmetric synthesis of amino nitriles that avoids the use of the previously mentioned undesirable stannane [74], Thus, as illustrated in Scheme 6.23, treatment of the requisite aniline and aldehyde with HCN (toxic but cheap and suitable for industrial use) at —45°C in the presence of 2.5 mol% 65 leads to the formation of 67 with 86 % ee and in 80 % yield. As was mentioned above in the context of catalytic asymmetric three-component alkylations of imines (see Scheme 6.18), the in situ procedure is particularly useful for the less stable aliphatic substrates (cf. 71—73, Scheme 6.23). The introduction of the o-Me group on the aniline is reported to lead to higher levels of asymmetric induction, perhaps because with the sterically less demanding aliphatic systems, the imine can exist as a mixture of interconverting cis and trans isomers. 

Fig. 25. Cross-linking reactions in a three-component resist system. Both O-alkylation and C-alkylation are shown.

Idemitsu Process. Idemitsu built a 50 t x 10 per year plant at Chiba, Japan, which was commissioned in Febmary of 1989. In the Idemitsu process, ethylene is oligomerised at 120°C and 3.3 MPa (33 atm) for about one hour in the presence of a large amount of cyclohexane and a three-component catalyst. The cyclohexane comprises about 120% of the product olefin. The catalyst includes sirconium tetrachloride, an aluminum alkyl such as a mixture of ethylalurninumsesquichloride and triethyl aluminum, and a Lewis base such as thiophene or an alcohol such as methanol (qv). This catalyst combination appears to produce more polymer (- 2%) than catalysts used in other a-olefin processes. The catalyst content of the cmde product is about 0.1 wt %. The catalyst is killed by using weak ammonium hydroxide followed by a water wash. Ethylene and cyclohexane are recycled. Idemitsu s basic a-olefin process patent (9) indicates that linear a-olefin levels are as high as 96% at C g and close to 100% at and Cg. This is somewhat higher than those produced by other processes. 

Thepreparadonof resin-bound nitroalkenes via a micro wave-assisted Knoevenagel reacdon of resin-bound nitroacedc acid v/ith aryl and alkyl subsdnited Mdehydes is reported. The potendiil of these resin-bound nitroalkenes for apphcadon in combmatorlM chemistry is demonstratedby a Diels-Alder reacdon v/ith 2,3-dimethylbutadienefScheme 8 9) Iris Mso used for one-pot three-component tandem [4t-2 /[3t-2 reacdons v/ith ethyl vinyl ether and styrene... 

A microwave-assisted three-component reaction has been used to prepare a series of 1,4-disubstituted-1,2,3-triazoles with complete control of regiose-lectivity by click chemistry , a fast and efficient approach to novel functionalized compounds using near perfect reactions [76]. In this user-friendly procedure for the copper(l) catalyzed 1,3-dipolar cycloaddition of azides and alkynes, irradiation of an alkyl halide, sodium azide, an alkyne and the Cu(l) catalyst, produced by the comproportionation of Cu(0) and Cu(ll), at 125 °C for 10-15 min, or at 75 °C for certain substrates, generated the organic azide in situ and gave the 1,4-disubstituted regioisomer 43 in 81-93% yield, with no contamination by the 1,5-regioisomer (Scheme 18). 

The use of microwave-assisted multicomponent cycloaddition reactions allows unique heterocyclic scaffolds to be assembled rapidly from readily accessible starting materials. The three-component reaction of M-alkyl-l,4-DHP... 

Radical-based carbonylation procedures can be advantageously mediated by (TMSlsSiH. Examples of three-component coupling reactions are given in Reactions (74) and (75). The cascade proceeds by the addition of an alkyl or vinyl radical onto carbon monoxide with formation of an acyl radical intermediate, which can further react with electron-deficient olefins to lead to the polyfunctionalized compounds. ... 

Sulfur dioxide (see above) as well as S02, SO , and SOj have been used as building blocks in three-component sulfone syntheses. It has long been known that aromatic sulfinic acids are easily available from diazonium salts and sulfur dioxide under copper catalysis . Mechanistically, aryl radicals as reactive intermediates add to sulfur dioxide generating arenesulfonyl radicals, which either take up an electron (or hydrogen) yielding a sulfinic acid or add to an olefinic double bond yielding final y -halogenated alkyl aryl sulfones (equation 78). 

The feasibility of identifying these edges of water base pairs has been supported by our studies of mitomycin C interacting with the model system for AT base pairs 29). Interactions of either component with mitomycin C are not observed but a complex is formed when all three components are present. Chemical shift changes observed in the NMR spectra support the structure 47 for the termolecular complex. The broader implication is that mitomycin C will likewise recognize the minor groove side of a G-C pair (it is known to alkylate the guanidine on this side)31 ... 

Scheme 2.92. Three-component asymmetric synthesis of 3-alkyl-4-methoxycarbonyl-azetidin-2-ones 2-386 from chiral crotonyl derivatives.

The preparation of resin-bound nitroalkenes via a microwave-assisted Knoevenagel reaction of resin-bound nitroacetic acid with aryl and alkyl substituted aldehydes is reported. The potential of these resin-bound nitroalkenes for application in combinatorial chemistry is demonstrated by a Diels-Alder reaction with 2,3-dimethylbutadiene (Scheme 8.9). It is also used for one-pot three-component tandem [4+2]/[3+2] reactions with ethyl vinyl ether and styrene 46... 

A different multicomponent route to imidazoles has been described by the group of O Shea, involving the diversity-tolerant three-component condensation of an aldehyde, a 2-oxo-thioacetamide, and an alkyl bromide (5 equivalents) in the presence of ammonium acetate (Scheme 6.201) [364]. This allowed the preparation of a 24-membered 4(5)-alkylthio-lH-imidazole demonstration library from 21 different aldehydes, 12 alkyl bromides, and two 2-oxo-thioacetamides. The library was synthesized in a parallel format using a custom-built reaction vessel. Alkylthioimidazoles... 

A new three-component approach to the highly substituted 2,5-dihydro-l,2,4-oxadiazoles 359 has been reported from the reaction of nitriles 354 under mild conditions with iV-alkylhydroxylamines 355 in the presence of electron-deficient alkynes 356 (Scheme 60) <20050L1391>. This synthesis is proposed to proceed via the initial formation of the alkyl or arylamidoximes 357, which then undergo a sequential double Michael addition to the electron deficient alkyne. The intermediate alkyl or arylamidoximes 357 can be isolated and then reacted with the alkyne to produce the product. The initial Michael adduct 358 is stable in cases where R2 is H. 

Two essentially different mechanisms, (i) oxidative cyclization of two 7T-components (formation of metallacycle) and (ii) oxidative addition of reducing or alkylating agents followed by insertion of 7t-components, can operate in these three-component reactions.426 However, the aforementioned phenomena such as the reversal of regiochemistry and the crossover from reductive to alkylative manifolds remain unsolved. 

Scheme 6.18. Three-component Zr-catalyzed asymmetric alkylation of imines by alkylzincs leads to the formation of optically enriched amines not accessible by alternative methods such as catalytic hydrogenation.

A 1,3-dipolar cycloaddition of the nonstabilized azomethine ylide 6 is the key step in a three-component reaction. The azomethine ylides were generated from (2-azaallyl)stannanes or (2-azaallyl)silanes 5 through an intramolecular iV-alkylation/demetallation cascade. The ylides underwent cycloaddition reactions with dipolarophiles yielding indolizidine derivatives 7-9 <2004JOC1919> (Scheme 1). 

An azomethyne ylide is also invoked as an intermediate in the three-component reaction between the dihydro-isoquinoline 10, an alkylating reagent 11, and the dipolarophile 12, which, in a one-pot process, afforded the indolizidine derivatives 13 <2005S2039> (Scheme 2). 

Three-component coupling. Addition of AIBN to a benzene solution of an allylic stannane, an alkyl iodide, and an electron-deficient alkene initiates a radical process that results in 1,2-addition of the alkyl and allyl groups to the alkene.4 Example ... 

During the last decade, a substantial number of novel (sometimes even stereoselective) strategies for the preparation of allenic prostaglandins have been devised. The approach used by Patterson involves a three-component coupling via a 1,4-addi-tion of the organocopper compound 121 to the enone 120, followed by alkylation of the enolate formed with the bromide 122 (Scheme 18.40) [121]. However, due to the notoriously low reactivity in the alkylation of the mixed copper-lithium enolate formed during the Michael addition [122], the desired product 123 was obtained with only 28% chemical yield (the alkylation was not even stereoselective, giving 123 as a 1 1 mixture of diastereomers). 

The three-component synthesis of benzo and naphthofuran-2(3H)-ones from the corresponding aromatic alcohol (phenols or naphthols) with aldehydes and CO (5 bar) can be performed under palladium catalysis (Scheme 16) [59,60]. The mechanism involves consecutive Friedel-Crafts-type aromatic alkylation and carbonylation of an intermediate benzylpalla-dium species. The presence of acidic cocatalysts such as TFA and electron-donating substituents in ortho-position (no reaction with benzyl alcohol ) proved beneficial for both reaction steps. 

In this context, an elegant alkylative carbonylation of alkenes accompanied by phenylselenyl transfer is described by Ryu and Sonoda. This three-component coupling involves the addition of a methoxycarbonylmethyl radical to an alkene, the trapping of the produced alkyl free radical by CO, and termination of the reaction by phenylselenenyl group transfer from the starting material. Yields are... 

Scheme 13 Three-component Friedel-Crafts alkylation of indoles...

---