Abstract: Acryloylphenylstearamide (2) was utilized as a starting material for synthesis the titled compounds via one-pot synthesis. Compound (2) was reacted with hydroxylamine hydrochloride in pyridine and produced isooxazole (3), and with thiosemicarbazide in pyridine and/or hydrazine-hydrate in ethanol afforded pyrazoles (4), and (5), while the reaction of (2) with urea and/ or thiourea in an alcoholic solution of sodium ethoxide gave pyrimidinone (6) and pyrimidinedione (7). Also, reaction of (2) with acetylacetone and/or ethyl acetoacetate in acetic acid andammonium acetateafforded Pyridine derivatives (8), and (9) respectively. Addition of different amounts of propylene oxide (3, 5, 7 moles) to the synthesized compounds produced nonionic surfactants (2-9a-c). The physiochemical and surface active properties of the prepared surfactant as surface and interfacial tension, cloud point, wetting time, emulsion stability, foam height, CMC, resistance to hydrolysis and their biodegradability were investigated. Also, the surface parameters as effectiveness (πCMC), efficiency (PC20), maximum surface excess (Γmax) and (Amin) were evaluated.Abstract: Acryloylphenylstearamide (2) was utilized as a starting material for synthesis the titled compounds via one-pot synthesis. Compound (2) was reacted with hydroxylamine hydrochloride in pyridine and produced isooxazole (3), and with thiosemicarbazide in pyridine and/or hydrazine-hydrate in ethanol afforded pyrazoles (4), and (5), while the reaction o...Show More
