流变学
化学
各向同性
化学工程
钠
六方晶系
相(物质)
表征(材料科学)
纳米技术
材料科学
结晶学
有机化学
复合材料
量子力学
物理
工程类
作者
Mohamed Youssry,Luigi Coppola,Emilia Furia,Cesare Oliviero Rossi,Isabella Nicotera
摘要
In this paper, some new physicochemical properties of sodium taurodeoxycholate (STDC)-water system are carefully investigated using shear rheology and NMR diffusometry. Of clear interest to us was the study of structure and/or morphology of the isotropic liquid and the hexagonal phase.We observed that the isotropic liquid phase (C < 30 wt% STDC) consists of a micellar solution (L1) and presents a sharp structural transition from spherical micelles to an entangled network upon increasing the concentration. Below 10 degrees C, the L1 phase transforms slowly into a firm, gel phase (V) which results stable in the composition interval 15 < C < 30 wt%. The linear viscoelasticity of this phase is interpreted by means of the cooperative-flow theory.The liquid crystalline phase (36 < C < 65 wt% STDC) is unequivocally characterized as having a direct hexagonal structure (H1). Specifically, the hexagonal mixture with 45 wt% STDC presents a low thermal stability (T < 35 degrees C) and slow kinetics at the liquid-hexagonal transition (> 5 hours). The linear viscoelasticity of this phase is interpreted by means of the generalized Maxwell model. All these findings are confirmed by some additional measurements performed on a lyotropic mixture of hexaethylene glycol monododecyl ether (C12E6), a nonionic surfactant forming a direct hexagonal phase in a similar interval of compositions and temperatures of STDC.
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