화학공학소재연구정보센터
Journal of Physical Chemistry B, Vol.116, No.7, 2065-2074, 2012
Quantitative Correlation of Counterion (X) Affinity to Ionic Micelles and X- and Temperature-Induced Micellar Growth (Spherical - Wormlike Micelles - Vesicles) for X=5-Methyl- and 5-Methoxysalicylate Ions
The semiempirical kinetic method has been used to determine the ratio of cetyltrimethylammonium bromide, CTABr, micellar binding constants of counterions X (K-X) and Br (K-Br), i.e., K-X/K-Br, (= R-X(Br)) for X = dianionic 5-methyl- and 5-methoxysalicylate ions. The values of K-X and K-Br, have been derived from the kinetic parameters obtained in the presence of spherical/nonspherical and spherical micelles, respectively. The values of R-X(Br) remain essentially independent of [CTABr] within its range 0.005-0.015 M for both dianionic 5-methyl- and 5-methoxysalicylate ions. The increase in temperature from 35 to 55 degrees C decreases the values of R-X(Br) from 796 to 53 for 5-methylsalicylate ions and from 89 to 7.0 for 5-methoxysalicylate ions. Rheological properties of 0.015 M CTABr solutions containing >= 0.01 M counterionic salt, M2X, show indirectly the presence of unilamellar vesicles, ULV, and long linear, entangled, and branched wormlike micelles, WM, at, respectively, 35 and 55 degrees C for X = dianionic 5-methylsalicylate ion. However, such studies show WM and probable spherical micelles, SM, at, respectively, 35 and 55 degrees C for X = dianionic 5-methoxysalicylate ions. It has been shown that, at a constant [CTABr], the micellar structural transitions from SM-to-WM-to-vesicles may be correlated quantitatively with the values of R-X(Br) regardless of whether such micellar structural transitions occur due to variation in the values of [M2X] at a constant temperature or due to variation in temperature at a constant [M2X].