波谱学杂志 ›› 2007, Vol. 24 ›› Issue (3): 374-376.

• 博士论文摘要 • 上一篇    下一篇

单链和 gemini 表面活性剂的NMR研究

作者:杨晓焱 导师:刘买利   

  1. 中国科学院 武汉物理与数学研究所,湖北 武汉,430071
  • 收稿日期:1900-01-01 修回日期:1900-01-01 出版日期:2007-09-05 发布日期:2009-12-05

Monomeric and Gemini Surfactants Studied by NMR

Author: YANG Xiao-yan Advisor: LIU Mai-li   

  1. Wuhan Institute of Physics and Mathematics,The Chinese Academy of Sciences,Wuhan 430071,Hubei, China
  • Received:1900-01-01 Revised:1900-01-01 Online:2007-09-05 Published:2009-12-05

摘要:

应用核磁共振技术,对几种典型的表面活性剂在水溶液中的聚集行为、结构特征、动力学特性和相互作用等进行了研究. 
利用1D 1H NMR方法测得4-癸基萘磺酸钠(SDNS)在313 K温度时的临界胶束浓度(CMC)在0.82~0.92 mmol/L之间,与报道的298 K时的CMC范围相同. 弛豫时间和2D NOESY实验结果表明,与298 K时的SDNS胶束相比,313 K温度时,SDNS胶束中烷烃链排列得更紧密,其中与萘环相连的第一和第二个亚甲基参与了胶束紧密层的形成,更紧密地堆积在萘环之间. SDNS质子T2值随温度的变化表明,在单体和胶束两种状态下,质子运动对温度的敏感性明显不同. 由自扩散系数分析得到,SDNS胶束的水合半径约为其单体水合半径的5.3倍. 而在十二烷基磺酸钠(SDSN)胶束中,由于静电排斥力的作用,在同样温度下SDSN的胶束紧密层排列比SDNS更疏松. 
NMR实验表明,在SDNS/Triton X-100 (TX-100)和SDNS/SDSN体系中形成了混合胶束. 在SDNS/TX-100混合胶束中,TX-100的苯环靠近SDNS的烷烃链,而它的聚烷氧链除与苯环相连的第一个乙氧基基团以外都被限制在SDNS的萘环附近. 在SDNS/SDSN混合胶束中,SDSN的磺酸基比SDNS分子更靠近胶束内部. 而SDNS的萘环将SDSN的磺酸基分隔开,在降低带负电荷的磺酸基极性头之间的静电排斥力中起到了积极的作用,有助于混合胶束的形成.
从自扩散系数、横向弛豫和质子距离等NMR测定参数推测,在浓度为0.26 mmol/L(318 K)的N,N′-双(十六烷基二甲基)-α,ω-丙烷溴化铵(16-3-16)溶液中形成了近似球形的胶束,胶束表面的带正电荷的铵基极性头呈锯齿状排列以减弱分子间静电排斥力的影响. 弛豫时间测定表明,与N,N′-双(十六烷基二甲基)-α,ω-丁烷溴化铵(16-4-16)相比,16-3-16在胶束表面的spacer链段更僵硬, 在胶束核区的烷烃侧链排列的更紧密. NMR共振峰的线形分析表明,16-3-16和16-4-16侧链末端的甲基在胶束中位于两个不同的位置. 

关键词: 液体核磁共振, 表面活性剂, gemini, 胶束, 相互作用

Abstract:

In this dissertation,NMR spectroscopy was used to study the aggregation,micelle structure,dynamics and interactaion of a few typical surfactants in aqueous solution. The results include: The variation of 1H chemical shift of Sodium 4-Decyl Naphthalene Sulfonate (SDNS) solution at 313 K with different concentrations shows that its Critical Micelle Concentration (CMC) of SDNS lies between 0.82 and 0.92 mmol/L,which is in the same range with that at 298 K (reported). Information provided by relaxation and 2D NOESY spectroscopy suggest that the hydrophobic chains in SDNS micelle at 313 K are packed more tightly than that at 298 K. These hydrophobic chains in SDNS micelles are packed densely and the α- and β-methylene protons next to the naphthalene rings are packed more tightly among the naphthyl rings in the palisade layer to avoid the hydrocarbon-water contact. The T2 values of protons at different temperatures in the micellar and monomer states show that temperature have a large effect on their motions. The hydration radius of SDNS micelle is approximate 5.3 times of that of monomer by NMR diffusion. The electrostatic repulsion force makes the palisade layer of Sodium Dodecyl Sulfonate (SDSN) micelle packed looser than that of SDNS at 313 K. The characteristics of sodium 4-decyl naphthalene sulfonate (SDNS)/Triton X-100 (TX-100) and sodium dodecyl sulfonate (SDSN)/SDNS mixed micelles of different molar ratios were studied by 1D and 2D 1H NMR. In the mixed micelle of SDNS/TX-100 the phenoxy rings of the TX-100 are embedded in the near vicinity of the alkyl chains of SDNS and its poly-oxy ethylene segments but the first oxy-ethylene group,to which the phenoxy ring is adjacent,are located near the naphthyl rings. In the mixed micelle of SDNS/SDSN system the sulfonate groups of SDSN are embedded in the naphthyl rings of SDNS,i.e. they are located inner in the mixed hydrophobic micellar core than those of SDNS. Moreover,the naphthyl rings of SDNS separating these sulfonate groups of SDSN may play an active role in weakening the electrostatic repulsion of the negatively charged sulfonate groups,which favors the mixed micelle aggregation.
The measurements of self-diffusion coefficient,spin-spin relaxation and interproton distance at 318 K suggest that N,N′-bis(cetyldimethyl)-α,ω- alkane propane diammonium dibromide (16-3-16) quasi-global micelles are formed in the dilute solution at a concentration of 0.26 mmol/L and the head groups are in a saw-toothed form staying at the surface of the micelle to overcome the strong electrostatic repulsion force. Relaxation measurements obviously show that the spacer chain is rigid in the surface layer of the hydrophobic micellar core and the side alkyl chains of 16-3-16 are packed more tightly than those of N,N′-bis(cetyldimethyl)-α,ω- alkane butane diammonium dibromide (16-4-16) in the micellar core. The line-shape analysis of the methyl protons at the end of the side alkyl chain of 16-3-16 and 16-4-16 suggests that two possible momentary morphologies of their side alkyl chains situated in the micelle, respectively.

Key words: NMR, surfactant, gemini, micelle, interaction