Zwitterionic surfactant solutions 1. A light scattering investigation

Colloids and Surfaces Pub Date : 1993-01-18 DOI:10.1016/0166-6622(93)80009-5

Alok Bhatia , Syed Qutubuddin

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引用次数: 12

Abstract

Dynamic and static light scattering studies are reported on a series of alkyl dimethyl betaines C_mDMB (m = 12, 16, 18) in aqueous solutions as functions of surfactant concentration, salt concentration and temperature. The characteristics of the micelles change dramatically as the alkyl chain length is increased from 12 to 18. In the case or C₁₈DMB, large micelles form at very low surfactant concentrations (about 0.2 wt%) and grow rapidly to become entangled at slightly higher concentrations (about 1 wt%). Upon addition of salt, C₁₈DMB micelles become very large and semiflexible. At 40.3°C the persistence lengths of C₁₈DMB micelles in 0.01 and 0.1 M NaCl aqueous solutions are approximately 1400 ± 200 Å and 1600 ± 250 Å, respectively. The persistence length of C₁₈DMB micelles in 0.1 M NaCl solution at 51.5°C is 1650 ± 250 Å. The dynamic light scattering data are consistent with estimated persistence lengths. Quantitative agreement is obtained with the theory developed by Fujime and co-workers (S. Fujime and M. Maruyama, Macromolecules, 6 (1973) 237; T. Maeda and S. Fujime, Macromolecules, 14 (1981) 809) for semiflexible, rodlike particles. Micelles of C₁₆DMB in water are very small compared to C₁₈DMB. The micelles are polydisperse and the size increases with increasing surfactant concentration. In 1.0 M NaCl aqueous solutions, the C₁₆DMB micelles are larger than in pure water and become semiflexible. After accounting for polydispersity, the persistence length is calculated to be roughly 600 ± 100 Å at 25°C. Therefore, micelles of C₁₆DMB are less stiff than those of C₁₈DMB. In contrast to C₁₈CMB and C₁₆DMB systems, C₁₂DMB micelles remain small and spherical over a wide range of surfactant concentration, in agreement with previous studies.

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两性离子表面活性剂溶液光散射研究

报道了一系列烷基二甲基甜菜碱CmDMB (m = 12,16,18)在水溶液中的动态和静态光散射随表面活性剂浓度、盐浓度和温度的变化规律。当烷基链长度从12链增加到18链时，胶束的性质发生了显著变化。在C18DMB中，表面活性剂浓度很低(约0.2 wt%)时形成大的胶束，在稍高的浓度(约1 wt%)时迅速生长并缠结在一起。加入盐后，C18DMB胶束变得非常大，具有半柔韧性。在40.3℃时，C18DMB胶束在0.01和0.1 M NaCl水溶液中的持续长度分别约为1400±200 Å和1600±250 Å。C18DMB胶束在51.5℃0.1 M NaCl溶液中的持续长度为1650±250 Å。动态光散射数据与估计的持续长度一致。与Fujime及其同事(S. Fujime和M. Maruyama, Macromolecules, 6 (1973) 237;T. Maeda和S. Fujime, Macromolecules, 14(1981) 809)用于半柔性棒状颗粒。与C18DMB相比，C16DMB在水中的胶束很小。随着表面活性剂浓度的增加，胶束呈多分散状，粒径增大。在1.0 M NaCl水溶液中，C16DMB胶束比在纯水中更大，呈现半柔性。考虑到多分散性后，在25°C时，持久性长度计算为大约600±100 Å。因此，C16DMB的胶束硬度低于C18DMB。与C18CMB和C16DMB体系相比，C12DMB胶束在表面活性剂浓度范围内保持小而球形，与先前的研究一致。

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Colloids and Surfaces

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