Microwave irradiation imines

Keywords benzaldehyde, aniline, ketone, secondary amine, Envirocat EPZG, microwave irradiation, imine, enamine... 

Keywords active methylene compound, LiBr, nitroso arene, Ehrlich-Sachs reaction, microwave irradiation, imine... 

Linking the ketone and carboxylic acid components together in an Ugi reaction facilitates the synthesis of pyrrolidinones amenable to library design. The three-component condensation of levulinic acid 30, an amine and isocyanide proceeds under microwave irradiation to give lactams 31 [65]. The optimum conditions were established by a design of experiments approach, varying the equivalents of amine, concentration, imine pre-formation time, microwave reaction time and reaction temperature, yielding lactams 31 at 100 °C in poor to excellent yield, after only 30 min compared to 48 h under ambient conditions (Scheme 11). 

Dipolar [3 + 2] cycloadditions are one of the most important reactions for the formation of five-membered rings [68]. The 1,3-dipolar cycloaddition reaction is frequently utihzed to obtain highly substituted pyrroHdines starting from imines and alkenes. Imines 98, obtained from a-amino esters and nitroalkenes 99, are mixed together in an open vessel microwave reactor to undergo 1,3-dipolar cycloaddition to produce highly substituted nitroprolines esters 101 (Scheme 35) [69]. Imines derived from a-aminoesters are thermally isomerized by microwave irradiation to azomethine yhdes 100,... 

The Pictet-Spengler reaction has mainly been investigated as a potential source of polycyclic heterocycles for combinatorial apphcations or in natural product synthesis [149]. Tryptophan or differently substituted tryptamines are the preferred substrates in a cyclocondensation that involves also aldehydes or activated ketones in the presence of an acid catalyst. Several versions of microwave-assisted Pictet-Spengler reactions have been reported in the hter-ature. Microwave irradiation allowed the use of mild Lewis acid catalysts such as Sc(OTf)3 in the reaction of tryptophan methyl esters 234 with different substituted aldehydes (aliphatic or aromatic) [150]. Under these conditions the reaction was carried out in a one-pot process without initial formation of the imine (Scheme 86). 

The reactive compound chlorosulfonyl isocyanate (ClSOaNCO, forms P-lactams even with unactivated alkenes, as well as with imines, allenes, conjugated dienes, and cyclopropenes. With microwave irradiation, alkyl isocyanates also... 

Electron-rich 6-[(dimethyl(amino)methylene)amino uracil 82 underwent [4+2] cycloaddition reactions with various in situ generated glyoxylate imine and imine oxides to afford novel pyrinhdo[4,5-J]pyrimicline derivatives 83-84 after elimination of dimethylamine from the (1 1) cycloadducts and oxidative aromatization. This one-pot procedure yielded excellent yields when carried out in the solid state and under microwave irradiation <06BMCL3537>. 

In 2001, Sarko and coworkers disclosed the synthesis of an 800-membered solution-phase library of substituted prolines based on multicomponent chemistry (Scheme 6.187) [349]. The process involved microwave irradiation of an a-amino ester with 1.1 equivalents of an aldehyde in 1,2-dichloroethane or N,N-dimethyl-formamide at 180 °C for 2 min. After cooling, 0.8 equivalents of a maleimide dipo-larophile was added to the solution of the imine, and the mixture was subjected to microwave irradiation at 180 °C for a further 5 min. This produced the desired products in good yields and purities, as determined by HPLC, after scavenging excess aldehyde with polymer-supported sulfonylhydrazide resin. Analysis of each compound by LC-MS verified its purity and identity, thus indicating that a high quality library had been produced. 

The synthesis of /Mactams from diazoketones and imines can be realized not only by using photochemical reaction conditions but also under the action of microwave irradiation. When the reaction was performed in o-dichlorobenzene at 180 °C, however, the rates of thermal and microwave-assisted formations of -lactams were shown to be identical within the limits of experimental error (80-85% conversion after 5 min) [30]. 

Upon microwave irradiation, vinylpyrazoles react with N-trichloroethylidene carbamate to undergo addition to the imine system through the conjugated vinyl group [109] (Eq. 60). 

This effect has recently been explained by considering that under the action of microwave irradiation the route involving direct reaction between the acyl chloride and the imine competes efficiently with the ketone-imine reaction pathway, a situation highlighted by theoretical calculations [113]. In the other words and according to our assumptions, it can be stated that the transition state leading to the trans isomer therefore seems to be more polar than that leading to the cis compound. 

Rapid monoalkylations are achieved in good yield compared with classical methods. Of particular interest is the synthesis of ot-amino acids by alkylation of aldimines with microwave activation. Subsequent acidic hydrolysis of the alkylated imine provides leucine, serine, or phenylalanine in preparatively useful yields within 1-5 min [50], Alkylation of phenylacetonitrile was performed by solid-liquid PTC in 1-3 min under microwave irradiation (Eq. 36 and Tab. 5.14). The nitriles obtained can subsequently be quickly hydrolyzed in a microwave oven to yield the corresponding amides or acids [56]. 

Spiro[3H-indole-3,5(4.H)-(l,2,4)triazoline]-2-one derivatives 204 have been obtained using microwave irradiation in the reaction between imines of isatin 203 and nitrile imines generated in situ from the corresponding hydrazonyl chlorides 199 (Scheme 9.63). The yields are in the range 85-95% and the reaction is complete within 5 min [110]. Similar reactions performed under thermal conditions were complete in 6-10 h and yields decreased to 20-30%. However, when the reaction was performed at ambient temperature, the products were obtained in excellent yields but only after a prolonged reaction time (30 h). 

The thermal hydrazone-azomethine imine isomerization can be easily performed under microwave irradiation in the absence of solvent. The subsequent 1,3-dipolar cydoadditions with electron-defident dipolarophiles occur in only a few minutes to afford the corresponding cycloadducts. The use of pyrazolyl hydrazones 205 leads to valuable compounds, such as bipyrazoles 213, in good yields and this provides a new approach to the preparation of these heterocyclic derivatives [116] (Scheme 9.67). Reactions undertaken with dassical heating under comparable reaction conditions (time and temperature) lead to cydoadduct yields that are considerably lower and, indeed, several dipolarophiles do not react at all. 

Cycloadditions give rise to four-membered rings. Thermal concerted [2+2] cycloadditions have to be antarafacial on one component and the geometrical and orbital constraints thus imposed ensure that this process is encountered only in special circumstances. Most thermal [2+2] cycloadditions of alkenes take place by a stepwise pathway involving diradical or zwitterionic intermediates [la]. Considerably fewer studies have been performed regarding the application of microwave irradiation in [2+2] cydoadditions than for other kinds of cydoaddition (vide supra). Such reactions have been commonly used to obtain /1-lactam derivatives by cycloaddition of ketenes with imines [18-20,117,118],... 

This methodology has also been used by Bose, who described the synthesis of the thienamycin side chain [119], the first step of which was a [2+2] cycloaddition under microwave irradiation. Likewise, Khajavi described the reaction of trichloroacetic anhydride with imines [120] with classical heating the reaction requires the use of Fe2(CO)9 as a catalyst, whereas under microwave irradiation a catalyst is not required. 

Borohydrides normally do not attack carbon-carbon multiple bonds, and thus, a, 3-unsaturated imines (1-aza-1,3-butadienes) are reduced only at their C=N bond, under both thermal and microwave conditions. However, the corresponding (1-aza-1,3-butadiene)tricarbonyliron(O) complexes show a totally different reactivity under the same conditions, and a simultaneous reduction of both C=N and C=C takes place if microwave irradiation is applied25. When the reaction was performed with sodium borodeuterid, 1,2,3-trideutero, secondary amines were obtained. In contrast to their behaviour under microwave conditions, these complexes were totally inert to reduction by NaBH4 under thermal conditions (Scheme 4.7)25. 

Hydro acylation of alkenes was achieved in the presence of Wilkinson s catalyst and microwave irradiation under solvent-free conditions. As an example, benzaldehyde was reacted with dec- 1-ene to give 1-phenylundecan- 1-one in 83%yield within 30 min. Both domestic microwave ovens and single-mode reactors have been used for this reaction. The presence of an amine such as 2-amino-3-picoline or aniline and a carboxylic acid is crucial for the success of the reaction, showing that the formation of an imine plays an important role as an intermediate in the mechanism of this reaction29. 

Reduction ofimines using formates Ammonium formates and formic acid have been employed as reducing agents in the synthesis of secondary amines from imines. By simple mixing of the reagents and microwave irradiation without solvent, the amines were produced in good yields within 2.5-10 min (Scheme 4.28)51. 

Formation of the imine and subsequent reduction can often be achieved in one pot . Thus, a microwave-assisted reductive amination-cyclisation domino reaction was used as the key step in the synthesis of perhydrocyclo-penta[ij]quinolizines from 1,5,9-triketones. This type of heterocycle is an important structural element in a series of alkaloids. The reaction of the triketone with ammonium formate in PEG-200 was performed within 1 min using microwave irradiation of370 W in a domestic microwave oven. Amixture oftwo ofthree possible stereoisomers was obtained in 87% overall yield (Scheme 4.29)52. 

Keeping in view the biological and synthetic importance of the (3-lactams and the potential of solvent-free microwave chemistry, Kidwai et al. [148] prepared (3-lactams via an ester-imine based synthesis under solvent-free microwave irradiation. The //Y/n.v-4-aminocyclohexanol (128) was condensed with different aromatic aldehyde to give the respective Schiff base. The Schiff-base was then reacted with ethyl a-mercapto/a-cyano acetate, in the presence of basic alumina, to afford the required 3-mercapto/cyano (3-lactams respectively, outlined in Scheme 41. 

The use of domestic microwave and automated oven in organic synthesis is well established (Microwave activation has become a very popular and useful technology in organic and medicinal chemistry. For some recent examples, see [128-131]). This is particularly very noteworthy because of the unconventional set up necessary for conducting the reaction. Microwave irradiation of a solution of imines 21, 23, and 29 with acetoxyacetyl chloride in chlorobenzene using a domestic and... 

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