Surface activity and micellar behavior of dimethylamino‐ and trimethylammonium‐ tipped oxyethylene–oxybutylene diblock copolymers in aqueous media

Surface activity and micellar behavior in aqueous media in the temperature range 20–50°C of the two block copolymers, Me 2 N(CH 2 ) 2 OE 39 B 18 , (DE 40 B 18 ) and I − Me 3 N + (CH 2 ) 2 OE 39 B 18 , (TE 40 B 18 ) in the premicellar and postmicellar regions have been studied by surface tensiometry, viscometry, and densitometry. Where E represents an oxyethylene unit while B an oxybutylene unit. Various fundamental parameters such as, surface excess concentrations (Γ m ), area per molecule ( a   S 1 ) at air/water interface and standard Gibbs free energy for adsorption, Δ G   0 adshave been investigated for the premicellar region at several temperatures. The thermodynamic parameters of micellization such as, critical micelle concentrations, CMC, enthalpy of micellization, Δ H   0 mic , standard free energy of micellization Δ G   0 mic , and entropy of micellization Δ S   0 michave also been calculated from surface tension measurements. Dilute solution viscosities have been used to estimate the intrinsic viscosities, solute‐solvent interaction parameter and hydration of micelle. Partial specific volume and density of the micelle were obtained from the density measurements at various temperatures. The effect of modifying the end group of the hydrophilic block was investigated by comparing the behavior of trimethylammonium‐ and dimethylamino‐tipped copolymers, designated TE 40 B 18 , and DE 40 B 18 , respectively. © 2010 Wiley Periodicals, Inc. J Appl Polym Sci, 2010