Dimeric and monomeric surfactants derived from sulfur-containing amino acids

“…The increased aggregation behaviour (vesicles formation, organogelators) was confirmed for fluorinated amphiphilic urea derivatives [12,13]. Single chain and double chain urea-based anionic surfactants (-alanine derivatives) [14] and anionic gemini surfactants derived from cysteine [15] showed better tendency to adsorb at the air/water interface than to form micelles. Urea-based gemini surfactants with octyl chains displayed cmc values comparable to other carboxylate surfactants of higher hydrocarbon chain length (decyl and dodecyl chains) [15] which is attributed to the hydrogen bonding ability of urea group [16].…”

“…Single chain and double chain urea-based anionic surfactants (-alanine derivatives) [14] and anionic gemini surfactants derived from cysteine [15] showed better tendency to adsorb at the air/water interface than to form micelles. Urea-based gemini surfactants with octyl chains displayed cmc values comparable to other carboxylate surfactants of higher hydrocarbon chain length (decyl and dodecyl chains) [15] which is attributed to the hydrogen bonding ability of urea group [16]. Increase of micelle ionization degree and decrease in anion selectivity of cetyltrimethylammonium bromide and cetyltrimethylammonium chloride micelles in presence of urea indicates a preferential headgroup solvation by urea squeezing the counterions out of the Stern layer [17].…”

Urea-based gemini surfactants: Synthesis, aggregation behaviour and biological activity

“…The increased aggregation behaviour (vesicles formation, organogelators) was confirmed for fluorinated amphiphilic urea derivatives [12,13]. Single chain and double chain urea-based anionic surfactants (-alanine derivatives) [14] and anionic gemini surfactants derived from cysteine [15] showed better tendency to adsorb at the air/water interface than to form micelles. Urea-based gemini surfactants with octyl chains displayed cmc values comparable to other carboxylate surfactants of higher hydrocarbon chain length (decyl and dodecyl chains) [15] which is attributed to the hydrogen bonding ability of urea group [16].…”

“…Single chain and double chain urea-based anionic surfactants (-alanine derivatives) [14] and anionic gemini surfactants derived from cysteine [15] showed better tendency to adsorb at the air/water interface than to form micelles. Urea-based gemini surfactants with octyl chains displayed cmc values comparable to other carboxylate surfactants of higher hydrocarbon chain length (decyl and dodecyl chains) [15] which is attributed to the hydrogen bonding ability of urea group [16]. Increase of micelle ionization degree and decrease in anion selectivity of cetyltrimethylammonium bromide and cetyltrimethylammonium chloride micelles in presence of urea indicates a preferential headgroup solvation by urea squeezing the counterions out of the Stern layer [17].…”

Urea-based gemini surfactants: Synthesis, aggregation behaviour and biological activity

“…In the present study, we calculated the value of Γ max on the basis of n 3, where complete dissociation of the surfactant and the two bromide counterions is assumed 4,25,36,37 . R is the gas constant and N A is Avogadro s number.…”

Solution Properties of Gemini Surfactant of Decanediyl-1-10-bis (dimethyltetradecylammonium bromide) in Aqueous Medium

“…Surfactants derived from sulfur-based amino acids such as cysteine have been found to show very interesting and unique physicochemical properties [9][10][11]. N-alkylamine surfactants derived from cystine and cysteine have been reported to form micelles and small lamellar vesicles in aqueous solutions [12].…”

Synthesis and physicochemical properties of non-ionic and cationic surfactants derived from methionine