Solvent-free conditions synthesis

Firouzabadi, H., Iranpoor, N., Amani, K. 2003. Keggin-type heteropoly acids revealed high catalytic activity for swift and selective oxidation of various hydroxy functionalities to the corresponding carbonyl groups using ferric nitrate as an oxidant under mild and solvent-free conditions. Synthesis 408 12. 

Yadav, J. S., Reddy, B. V. S., Kumar, S. P., Nagaiah, K. and Lingaiah, P. S. 2004a. AgjPW,204o A novel and recyclable heteropoly acid for the synthesis of 1,5-benzodiazepines under solvent-free conditions. Synthesis 6 901-904. 

Yadav JS, Reddy B, V S, Rao RS, Naveen Kumar V, Nagaiah K (2003) Microwave-assisted one-pot synthesis of 2,4-disubstituted quinolines under solvent-free conditions. Synthesis 10 1610-1614... 

The synthesis of 4-unsubstituted DHPs in a focused microwave reactor has been reported using alkyl acetoacetates and hexamethylenetetramine 19 as the source of both formaldehyde and ammonia, with additional ammonium acetate to maintain the stoichiometry [57], Irradiation for 100 s under solvent-free conditions gave, for example, 1,4-DHP 20 in 63% isolated yield (Scheme 5). 

This transformation can also be carried out under solvent-free conditions in a domestic oven using acidic alumina and ammoniiun acetate, with or without a primary amine, to give 2,4,5-trisubstituted or 1,2,4,5-tetrasubstituted imidazoles, respectively (Scheme 15A) [69]. The automated microwave-assisted synthesis of a library of 2,4,5-triarylimidazoles from the corresponding keto-oxime has been carried out by irradiation at 200 ° C in acetic acid in the presence of ammonium acetate (Scheme 15B) [70]. Under these conditions, thermally induced in situ N - O reduction occurs upon microwave irradiation, to give a diverse set of trisubstituted imidazoles in moderate yield. Parallel synthesis of a 24-membered library of substituted 4(5)-sulfanyl-lff-imidazoles 40 has been achieved by adding an alkyl bromide and base to the reaction of a 2-oxo-thioacetamide, aldehyde and ammonium acetate (Scheme 15C) [71]. Under microwave-assisted conditions, library generation time was dramatically re-... 

Fewer procedures have been explored recently for the synthesis of simple six-membered heterocycles by microwave-assisted MCRs. Libraries of 3,5,6-trisubstituted 2-pyridones have been prepared by the rapid solution phase three-component condensation of CH-acidic carbonyl compounds 44, NJ -dimethylformamide dimethyl acetal 45 and methylene active nitriles 47 imder microwave irradiation [77]. In this one-pot, two-step process for the synthesis of simple pyridones, initial condensation between 44 and 45 under solvent-free conditions was facilitated in 5 -10 min at either ambient temperature or 100 ° C by microwave irradiation, depending upon the CH-acidic carbonyl compound 44 used, to give enamine intermediate 46 (Scheme 19). Addition of the nitrile 47 and catalytic piperidine, and irradiation at 100 °C for 5 min, gave a library of 2-pyridones 48 in reasonable overall yield and high individual purities. 

The synthesis of imidazoles is another reaction where the assistance of microwaves has been intensely investigated. Apart from the first synthesis described since 1995 [40-42], recently a combinatorial synthesis of 2,4,5-trisubstituted and 1,2,4,5-tetrasubstituted imidazoles has been described on inorganic solid support imder solvent-free conditions [43]. Different aldehydes and 1,2 dicarbonyl compounds 42 (mainly benzil and analogues) were reacted in the presence of ammonium acetate to give the trisubstituted ring 43. When a primary amine was added to the mixture, the tetrasubstituted imidazoles were obtained (Scheme 13). The reaction was done by adsorption of the reagent on a solid support, such as silica gel, alumina, montmorillonite KIO, bentonite or alumina followed by microwave irradiation for 20 min in an open vial (multimode reactor). The authors observed that when a non-acid support was used, addition of acetic acid was necessary to obtain good yields of the products. 

The condensation between enaminones and cyanoacetamide is a well-established method for the synthesis of 2-pyridones (see c, Scheme 2, Sect. 2.1), and the use of malonodinitrile instead of the amide component has also been shown to yield 2-pyridones [39-41]. Recently, Gorobets et al. developed a microwave-assisted modification of this reaction suitable for combinatorial synthesis, as they set out to synthesize a small library of compounds containing a 2-pyridone scaffold substituted at the 3, 5, and 6-positions [42]. The 2-pyridones were prepared by a three-component, two-step reaction where eight different carbonyl building blocks were reacted with N,N-dimethylformamide dimethyl acetal (DMFDMA) to yield enaminones 7 (Fig. 2). The reactions were performed under solvent-free conditions at el-... 

A number of new conditions and catalysts have been used for the synthesis of quinazolinones 50 from anthranilic acids, amines and ortho esters, including bismuth trifluoroacetate with an ionic liquid <06TL3561>, lanthanum nitrate or tosic acid under solvent-free conditions at room temperature <06TL4381> and Nafion-H <06SL2507>. 

Scheme 4.24 Solvent-free parallel synthesis under microwave conditions (domestic oven).

A recent publication by the group of Barbarella has disclosed the rapid preparation of poorly soluble unsubstituted and modified a-quinque- and sexithiophenes by the extensive use of bromination/iodination steps and microwave-assisted Suzuki and Sonogashira cross-couplings (Scheme 6.16) [42]. Suzuki reactions were either carried out under solvent-free conditions on a strongly basic potassium fluoride/ alumina support for the synthesis of soluble oligothiophenes, or in solution phase for the preparation of the rather insoluble a-quinque- and sexithiophenes. In both cases, 5 mol% of [l,l -bis(diphenylphosphino)ferrocene]dichloropalladium(II)... 

Miriyala and Williamson have described the synthesis of /i-kctocarboxam idcs from primary and secondary amines and 2,2-dimethyl-2H,4H-l,3-dioxin-4-ones as reactive a-oxoketene precursors (Scheme 6.158) [304], The experimental procedure involved heating a mixture of the dioxinone with 2-3 equivalents of the amine at ca. 180 °C for 1-3 min under solvent-free conditions in a sealed vessel by microwave irradiation. A small collection of 18 /3-ketocarboxamides was prepared in very high yields using this protocol. 

The 1,3-dipolar cycloaddition of azides to alkynes is a versatile route to 1,2,3-tri-azoles. Different combinations of substituents on the azide and on the alkyne allow the preparation of diverse N-substitutcd 1,2,3-triazoles. Katritzky and Singh have described the synthesis of C-carbamoyl-1,2,3-triazoles by microwave-induced cydoaddition of benzyl azides to acetylenic amides (Scheme 6.220) [393]. Employing equimolar mixtures of the azide and alkyne under solvent-free conditions, the authors were able to achieve good to excellent isolated product yields by microwave heating at 55-85 °C for 30 min. In general, the triazole products were obtained as mixtures of regioisomers. Control experiments carried out under thermal (oil bath)... 

In Scheme 6.230, the multistep synthesis of 2,3-dihydro-4-pyridones is highlighted [411]. The pathway described by Panunzio and coworkers starts from a dioxin-4-one precursor, which is readed with 2 equivalents of benzyl alcohol under solvent-free microwave conditions to furnish the corresponding /1-diketo benzyl esters. Subsequent treatment with 1 equivalent of N,N-dimethylformamide dimethyl acetal (DMFDMA), again under solvent-free conditions, produces an enamine, which is then cyclized with an amine building block (1.1 equivalents) to produce the desired 4-pyridinone produds. All microwave protocols were conducted under open-vessel conditions using power control. 

A very interesting approach toward solid-supported synthesis under microwave heating was introduced by Chandrasekhar and coworkers [64], The authors developed a synthesis of N-alkyl imides on a solid phase under solvent-free conditions employing tantalum(V) chloride-doped silica gel as a Lewis acid catalyst (Scheme 7.53). 

The Jacobs-Gould intramolecular cyclization of diethyl N-(6-methyl-2-pyridyl)amino-methylenemalonate to 3-ethoxycarbonyl-7-methyl-l,8-naphthyrid-4-one is another reaction ideally suited to microwave heating, although conductively heated equipment was employed for laboratory-scale experiments [45]. The product is a key intermediate in the synthesis of nalidixic acid, the first of the quinolone antibacterials. The process usually is conducted at temperatures of 200-250 °C and in high dilution, with heat transfer oils such as the eutectic mixture of diphenyl ether and biphenyl. However, it proceeded rapidly, predictably and controllably under solvent-free conditions. 

More recently [29] the microwave-mediated Biginelli dihydropyrimidine synthesis (Eq. 2) was reinvestigated using a purpose-built commercial microwave reactor with on-line temperature, pressure, and microwave power control. Transformations performed with microwave heating at atmospheric pressure in ethanol solution resulted in neither a rate increase nor an increase in yield when the temperature was identical to that used for conventional thermal heating. The only significant rate and yield enhancements were found when the reaction was performed under solvent-free conditions in an open system. 

The synthesis of biologically significant fluorinated heterocyclic compounds has been accomplished by 1,3-dipolar cycloaddition of nitrones to fluorinated dipolarophiles [51], This reaction was noticeably improved under solvent-free conditions and using microwave irradiation (Eq. (8) and Tab. 3.5). 

Fusel oil basically comprises a mixture of alcohols such as isopentanol and isobutanol. The synthesis of isopentyl stearate has been performed using both microwave irradiation and conventional heating under solvent-free conditions (Eq. 20) [73],... 

The reactions of aliphatic alcohols with p-toluenesulfmic acid are accelerated by microwave irradiation under solvent-free conditions in the presence of silica gel, to afford a high-yielding synthesis of p-toluenesulfmate esters [74] (Eq. 21). 

The use of dry media (solvent-free) conditions, in which the reactants are absorbed on inert solid supports, in MW-heated reactions, has received a considerable amount of attention recently and has been used in the synthesis of a wide range of compounds [11-16]. These reactions generally occur rapidly and the method avoids hazards, such as explosions, associated with reactions in solvents in sealed vessels in which high pressures may be generated. Also the removal of... 

However, more significant modifications in selectivity, which have useful applications in synthesis, have been reported in a number of other reactions performed under the action of MW irradiation [9, 44, 70]. Many of these reactions were performed under heterogeneous and/or solvent-free conditions, and only those performed under homogeneous conditions will be discussed here. 

Desyl ethers are key intermediates in the synthesis of biologically active furanopy-rones. MW-assisted synthesis of these has been performed in an open vessel under PTC solvent-free conditions (Eq. 19) by alkylation of 7-hydroxy-4-methyl coumarin with desyl chloride [30],... 

In 1979, Olah [47] reported a one step conversion of alicyclic ketones into lactams by means of hydroxylamine O-sulfonic acid and formic acid under reflux for a few hours. More recently this reaction has been realized under solvent-free conditions with Si02 as inorganic support and focused irradiation, as exemplified in Scheme 8.29 for caprolactam synthesis. 

A rapid one-pot synthesis of imidazo-[l,2-a]-pyridines, pyrazines and pyrimidines was described in 1999 by Varma et al. [50], who used recyclable montmorillonite clay Kio under solvent-free conditions and microwave irradiation (Scheme 8.32). 

This was later extended to the synthesis of novel pyrimido-[l,3-a]-pyrimidines under solvent-free conditions ethyl-2-armno-4-aryl-l,4-dihydro-6-phenylpyrimidine-5-car-boxylates react regioselectively with 3-formyl chromone or diethyl (ethoxymethylene) malonate, without solvent, to afford pyrimido-[l,3-a]-pyrimidines [92] (Scheme 8.66). 

A variety of conditions (solution, dry media, solvent-free) has been used for microwave-assisted synthesis of Hantzsch 1,4-DHP only procedures involving solvent-free conditions under the action of irradiation led to the aromatized pyridine derivatives. 

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