Synthesis of Some Salicylaldehyde-Based Schiff Bases in AqueousMedia

A new efficient and environmental friendly procedure for the synthesis of a series of salicylaldehyde-based schiff bases under microwave irradiation is described. e method is compared with the conventional method also. e present work involves condensation of salicylaldehyde with various aromatic amines in water under microwave irradiation. A judicious choice of the solvent and reaction conditions allowed the �nal products to be generated in excellent yields in a one-step procedure, whereas experiments under thermal conditions led to lower yields with tedious work-up. Microwave irradiation method gives advantages like reduction in reaction time, increase in conversion, reduced wastes, and good yields. e structures of synthesized compounds were con�rmed by IR, 1H�MR, and Mass Spectra data.


Introduction
ere has been growing concern over the environmental impact of chemicals so that cleaner green reaction conditions in synthetic processes have been advocated.e tight legislation to maintain greenness requires us to prevent the generation of waste, avoid use of auxiliary substances (e.g., organic solvents, additional reagents), and minimize the energy requirement.In this context, the use of water as the reaction medium offers several advantages as (a) it is cheap, nonin�ammable, nontoxic, and safe to use [1,2], (b) its unique physical and chemical properties oen increase the reactivity or selectivity, which sometimes is unattainable in organic solvents [3], and (c) it eliminates the additional efforts required to make the substrates/reagents dry before use and thus reduces/eliminates the consumption of drying agents, energy, and time.
Schiff bases are typically formed by the condensation of a primary amine and an aldehyde which involves the use of organic solvents such as methanol, tetrahydrofuran (THF), and 1,2-dichloroethane (DCE) [4].Microwave-assisted preparation of a series of Schiff base without solvent [5] has also been reported.Comparison of the three ways to synthesize simple Schiff base has been made and microwave irradiation was found to be the simplest way to synthesize the Schiff base [6].
Schiff base compounds are very popular ligands because of their easy formation and rich coordination chemistry with a large variety of metal ions, that has allowed their use as catalysts in different asymmetric reactions [7,8].Salicylaldehyde-based Schiff bases complexes of 2-aminol,3,4-thiadiazole have been screened for antibacterial activity against several bacterial strains such as Escherichia coli, Staphylococcus aureus, and Pseudomonas aeruginosa [9].e antibacterial potency of these Schiff bases increased upon chelation/complexation, against the tested bacterial sixties, opening new approaches in the �ght against antibiotic resistant strains.Considering all these �ndings, we hereby report the microwave-assisted synthesis of some salicylaldehydebased Schiff bases in aqueous media.
It is worthwhile to mention here that the synthesis of these Schiff bases is known [10][11][12][13] in the literature involving tedious process using methanol/ethanol as solvent and requires longer reaction time.In general the reported syntheses of Schiff bases involving condensation reactions requires drastic conditions namely, use of Dean Stark apparatus, use of catalyst, higher temperature, and longer reaction time [14].Fluorinated Schiff bases reported in this paper are also equally important because of the effects of �uorine substitution on inter-and intramolecular forces which affect binding of ligands, and thus introduce receptor subtype selectivity in the body [15,16].e scope and generality of this process is illustrated with respect to salicylaldehyde and various �uorinated amines.
In conclusion, we describe a green and efficient method for the synthesis of Schiff bases in aqueous media (Scheme 1).e easy workup, facile conditions, fast reaction rates, good yields, and selectivity of the reaction make the present methodology attractive.

Experimental
Melting points were determined in open capillary tubes and are uncorrected.e purity of the compound was checked on silica-gel-coated aluminium plates (Merck).IR spectra were recorded in KBr on a Perkin Elmer Spectrum RX-1 FT-IR spectrophotometer. 1 H-NMR and 13 C-NMR spectra were measured on Jeol JNM-ECX400P at 400 MHz.Microwave irradiations were carried out in microwave synthesizer, (CEM-Discover).All chemicals used were of analytical grade.

Conventional Method
Schiff bases are prepared by condensation of salicylaldehyde (0.004 mol) with various aromatic amines (2a-e) (0.004 mol) in water (10 mL) and the mixture was stirred at ambient temperature.e progress of reaction was monitored by TLC.On completion of reaction the product was separated as yellow-coloured amorphous product which was �ltered, dried, and recrystallized from methanol.

Microwave Method
A mixture of salicylaldehyde (0.004 mol) and substituted aromatic amines (2a-e) (0.004 mol) in water (1 mL) were added in microwave tube.e contents were subjected to microwave irradiation at 200 W for about 30 sec-2 min.Progress of the reaction was monitored by TLC.Aer the completion of the reaction, solid product was obtained in reaction mixture which was �ltered and recrystallized with methanol.Recrystallization provides the title compounds as solid crystals.

Results and Discussion
Novel green method using water as solvent for synthesis of schiff 's base has been established.e synthetic scheme has been given in Scheme 1. e results summarized in Table 1.
Reaction for the synthesis of 3a-e was standardized by performing the synthesis of 3a at different temperatures starting from ambient temperature to 80 ∘ C as shown in Table 1.However, on comparing the progress of reaction, the best yields were obtained at a temperature of 70 ∘ C, therefore synthesis of compounds (3b-e) was carried out at this temperature.Moreover reaction time reported was according to the completion of reaction at a microwave power

Conclusions
e method shown here is the most convenient way to synthesize the salicylaldimines, in which microwave irradiation plays an important role for promoting the condensation reaction of aldehyde and amine and water plays the role of eco-friendly solvent.In conclusion, a simple efficient and fast method has been developed for the synthesis of novel Schiff bases in aqueous media under microwave irradiation method.

T 1 :
Comparison of yield of Schiff base (3a) at different temperatures under microwave condition.

H
S 1: Synthesis of Schiff bases.T 2: Comparison of microwave and conventional method.