SDS-正戊醇与SDS-正丁醇微乳体系相行为模拟

利用净平均曲率模型重现了以十二烷基硫酸钠(SDS)为表面活性剂,正丁醇和正戊醇为助剂,短碳链烷烃的相行为和增溶参数的变化情况。模拟了Winsor相图及最佳增溶参数曲线,并和实验进行了对比,与实验结果吻合的较好,并且发现在相同表面活性剂和助剂下,油越轻,增溶量越大,采用正戊醇做为助剂增溶轻油的能力约为采用正丁醇的3倍。在表面活性剂用量相差不大,助剂量相同的情况下,出现中相所需的盐度都是正己烷正庚烷正辛烷正十二烷,以正戊醇为助剂所需的盐度远小于以正丁醇为助剂所需的盐度。     

Mechanism of the Micellar Solubilization of Curcumin by Mixed Surfactants of SDS and Brij35 via NMR Spectroscopy

The micellar solubilization mechanism of curcumin by mixed surfactants of SDS and Brij35 was investigated at the molecular scale by NMR spectroscopy. Through the investigation of the micelle formation process, types and structures of mixed micelles and solubilization sites, the intrinsic factors influencing the solubilization capacity were revealed. For systems with α_SDS = 0.5 and 0.2, the obtained molar solubilization ratios (MSRs) are consistent with the MSR_ideal values. However, for α_SDS = 0.8, the solubilization capacity of curcumin is weakened compared to the MSR_ideal. Furthermore, only one single mixed SDS/Brij35 micelles are formed for α_SDS = 0.5 and 0.2. However, for α_SDS = 0.8, there are separate SDS-rich and Brij35-rich mixed micelles formed. In addition, NOESY spectra show that the interaction patterns of SDS and Brij35 in mixed micelles are similar for three systems, as are the solubilization sites of curcumin. Therefore, for α_SDS = 0.5 and 0.2 with single mixed micelles formed, the solubility of curcumin depends only on the mixed micelle composition, which is almost equal to the surfactant molar ratio. Although curcumin is solubilized in both separate micelles at α_SDS = 0.8, a less stable micelle structure may be responsible for the low solubility. This study provides new insights into the investigation and application of mixed micelle solubilization.     

Surfactant-free oil/water and bicontinuous microemulsion composed of benzene, ethanol and water

<正>Generally,a microemulsion consists of oil,water,surfactant and sometimes cosurfactant.Herein,we report a novel suffactant-free microemulsion(denoted as SFME) composed of benzene,water and ethanol without the amphiphilic molecular structure of traditional surfactant.The phase behavior of the ternary system was investigated,finding that there were a single-phase region and a two-phase region in ternary phase diagram.The electrical conductivity measurement was employed to investigate the microregion of the single-phase region,and a bicontinuous microregion and a benzene-in-water(O/W) microemulsion microregion were identified,which was confirmed by freeze-fracture transmission electron microscopy(FF-TEM) observations.The sizes of the microemulsion droplets are in the range of 20-50 nm.     

Study and Modeling of Metal Oxide Solubilization in (w/o) Microemulsions

Water-in-oil (w/o) microemulsions are very appealing reaction media due to their ability to provide huge surface of contact between water-soluble and oil-soluble reactants. Their application as reaction media, including the preparation of nanoparticles, is, however, limited to water soluble precursors. In this study, we present a first step scheme in a two-step process for the preparation of metal oxide nanoparticles starting from their water-insoluble metal oxide bulk powder. This step involves solubilizing the metal oxide in the water pools of the microemulsion with the aid of a solubilizing agent. The variables affecting the solubilizing capacity of iron and copper oxides, as examples of important metal oxides, in single HCl-containing AOT/water/isooctane microemulsions were investigated. The effect of the following variables on the solubilization capacity is reported, namely, mixing time, surfactant concentration, water to surfactant mole ratio (R), and the nominal concentration of HCl in the water pool. At 300-rpm, time-invariant concentration of the metals in the microemulsions was achieved in about 6 hours. These values were quoted as the solubilization capacity of the metal oxide at the corresponding conditions. Solubilization capacity increased linearly with the surfactant concentration and R, and portrait a power function with the nominal concentration of HCl in the water pool. A mathematical model previously derived to describe nanoparticle uptake by single microemulsion accurately accounted for the effect of the aforementioned variables on the solubilization capacity.     

柴油中相微乳液的制备和相图分析

制备了柴油/复合表面活性剂/正戊醇/MnCl2盐水五元微乳液;研究了MnCl2浓度、表面活性剂浓度及正戊醇浓度对五元微乳液体系中相微乳液的形成和鱼尾相图的影响.结果表明,用MnCl2扫描时形成的中相微乳液范围较窄;在鱼尾相图中,当复合表面活性剂D0821(双(C8-10烷基)二甲基氯化铵)和AEO-3(脂肪醇聚氧乙烯醚)的质量比为4∶6时,形成单相微乳液的表面活性剂效率最高,最佳表面活性剂的质量分数为8.3%.     

Phase Diagrams and Solubilization of Chlorocarbons in Chlorocarbon/Water/Anionic Surfactant/Alcohol Microemulsion Systems

The solubilization abilities of various chlorocarbons were investigated in a middle phase microemulsion system anionic surfactant sodium dodecyl sulfate (SDS) or sodium dodecyl sulfonate (AS)/n-butanol/chlorocarbon/brine with a ε-β fishlike phase diagram. The composition of the balanced interfacial layer of the microemulsion and some other parameters are calculated. The result shows that surfactant little dissolves in water and chlorocarbon phases, while alcohol mainly dissolves in water and oil phases besides in the interfacial layer. The order of the solubilization ability is dichloromethane (CH₂Cl₂) ～ carbon tetrachloride (CCl₄) > tetrachloroethylene (PCE) > o-dichloro-benzene. The solubility of the alcohol decreases with the increase in NaCl concentrations, which should be compensated by the increase in the amount of alcohol as cosolvent (Cs), so as to maintain the balanced interfacial layer. Salinity has little effect on the partition of surfactant between phases.     

光散射法研究丙烯酸十八酯和苯乙烯微乳液 共聚机理

在十六烷基溴化吡啶/叔丁醇/15%丙烯酸十八酯和苯乙烯/水体系的O/W微乳液中,使用动态光散射法,研究其中两种单体共聚反应的成核机理。结果表明,聚合过程中乳胶粒成核位置主要在增溶胶囊的单体微珠中,乳胶粒主要依靠单体微珠不断提供单体而长大。     

胶束增溶光度法同时测定铂、铑、钯和金的研究

本文研究了贵金属Pt、Rh、Pd和Au在SnCl_2-BRB-AG-乳化剂OP离子缔合物体系中显色反应的条件,采用偏最小二乘回归法对上述体系重迭光谱进行解析及数据处理。结果表明,该体系灵敏度高,表观摩尔吸光系数可达1.74×10～6～2.47×10～6L·mol～-1·cm～-1;体系稳定性较好。应用本文方法对混合试样中Pt、Rh、Pd、Au进行同时测定,取得较满意的结果。     

脂肪醇和电解质对丙酸十二铵盐在四氯化碳中增溶水的影响

研究了己醇，辛醇、Ｋｕｉ醇和月桂醇对丙酸十二铵（ＤＡＰ）－四氯化碳反胶束溶液增溶水和氯化钠水溶液的影响，在ＤＡＰ浓度固定时，水增溶量对醇浓度的关系出现极大值，在醇浓度相同时，长碳链醇较短碳链醇有更大的增溶水能力，在固定ＤＡＰ浓度和增溶水量最大时，氯化钠的存在将导致水溶液增溶量的显著下降，乙酸十二铵（ＤＡＡ）、ＤＡＰ和丁酸十二铵（ＤＡＢ ）的四氯化碳溶液对氯化钠水溶液的增溶量随氯化钠浓度的升高而有不     

Solubilization of Celecoxib in Microemulsions Based on Mixed Nonionic Surfactants and Peppermint Oil

U-type microemulsions formulated with water, mixed nonionic surfactants, and peppermint oil were used to solubilize celecoxib. Microemulsion dilution and interfacial factors contributing to the celecoxib solubilization were evaluated. Celecoxib solubilization capacity decreases with the increase in the water content. Electrical conductivity, dynamic viscosity, and SAXS measurements reveal the structural transition occurring in the microemulsion region. It was found that below 0.25 aqueous phase volume fraction the water-in-oil microemulsions are present, the transition between the water-in-oil to bicontinuous and then to oil-in water microemulsions occur at 0.30 and 0.8 aqueous phase volume fraction, respectively. The results demonstrate that the solubilized drug affects the transition from bicontinuous to water-in-oil microemulsions. The solubilized drug increases the hydrodynamic radius of the oil-in-water microemulsion droplets measured by dynamic light scattering.     

邻苯二甲酸二甲酯胶束增溶过程的NMR研究

胶束的增溶作用，可通过X射线，紫外光谱以及核磁共振潜等进行研究.Eriksson等［‘］用NMR法研究了芳香烃在CTAB表面活性剂胶束溶液中的增溶作用.李干佐等问用NMR法研究了件二甲苯和末甲醇在SDS表面活性剂胶束溶液中的增溶作用.然而，关于既非亲油也非亲水的某些小的极性分子的     

流变学方法测定共混物相图及其分辨尺度探讨

应用小振幅振荡剪切(SAOS)和小角激光散射(SALS)测定了苯乙烯-马来酸酐共聚物/聚甲基丙烯酸甲酯(SMA/PMMA)共混体系相分离温度,并分析了动态储能模量对频率响应的敏感程度以及不同测试方法在相分离判据方面的差别.认为前者是造成由不同的测试频率得到的相边界之间存在差异的原因,而SAOS与SALS得到的相边界不同则缘于后者;通过评估不同温度下分散相的尺度,发现选择合适的测试频率进行SAOS测试可以得到比SALS法更小的分辨尺度.     

灵芝、枸杞等样品中微量锗的胶束增溶分光光度法测定

研究用离子缔合物胶束增溶分光光度法测定灵芝、枸杞、蘑菇、茶叶和大蒜中锗的含量,采用标准加入法考查了不同的消解方法对样品中锗的溶解情况,用高压罐密闭消解处理样品,锗的测定结果的相对标准偏差(n=4)小于4.3%,回收率为90%～105%.     

Xylenol Orange,Zirconium(IV) and Fluoride Color Reaction in Mixed Micelles of N-Hexadecylpyridinium Chloride and Brij 35, and Its Analytical Application1

Abstract

The color reaction between Xylenol orange (XO), zirconium (IV) and fluoride ions in the presence of various surfactants alone or in combination was studied at various pH. The XO -zirconium)IV)-fluoride ion ternary complex in mixed micellar media containing a low concentration of N-hexadecylpyridinium chloride (HPC) as a cationic surfactant and large amounts of (poly{oxyethylene)dodecyl ether (Brij 35) as a nonionic surfactant at weakly acidic media was found to be the most stable, and showed a remarkable bathochromic shift and clear contrast against a reagent blank. The maximum absorbance was at 600 nm in the mixed micellar media at pH 3.5, and the apparent molar absorptivities at 600 nm were 7.0 × 10⁴ 1 mol^?1 cm^?1 for zirconium(IV) and 1.4 × 10⁴ 1 mol^?1 cm^?1 for fluoride ion. The calibration curves covered the ranges of 0.5 ～ 20.0 μg/10 ml zirconium! IV) and 0 ～ 20.0 μg/10 ml fluoride ion with the Sandell sensitivities being 0.0013 μg/cm² for zirconium(IV) and 0.0016 μg/cm² for fluoride ion.     

The relationship of conductivity to the morphology and crystallinity of polyaniline controlled by water content via reverse microemulsion

Conducting polyaniline (PANI) with the controllable morphology and crystallinity were successfully synthesized with different water content () in the reverse microemulsion stabilized with sodium bis(2-ethylhexyl)-sulfosuccinate (AOT). In the microemulsion, the systems containing the different amounts of water will show the different phase behaviors and structures. The influence of water content on morphology and crystallinity of conducting PANI was characterized by a number of techniques such as Fourier transform infrared spectra, UV–Visible, scanning electron microscopy, transmission electron microscopy, and X-ray powder diffraction and conductivity. In particular, we focus on the understanding of the relationship between the morphology and the crystallinity and the conductivity of PANI powder. With the increasing of the water content (W ₀ = 13.9, 27.8, 55.5, and 111.1) in the microemulsion system, the morphology and the crystallinity obviously changed and the values of relative conductivity are 0.05, 0.11, 2.7, and 1.8 S/cm, respectively.     

Fe、Mn掺杂六铝酸镧的微乳液制法及性能研究

以TX-100/正己醇/环己烷组成的反相微乳液为媒介,采用反相微乳 共沉淀法制备系列金属掺杂的六铝酸镧催化剂。用BET、XRD进行物性表征, 以甲烷燃烧为探针反应考察了催化剂的催化活性。结果表明,反相微乳液合成催化剂的最佳成晶温度可降至1100℃。 LaMx Al12－x O19－α 中M的最佳掺杂数为1(x1)。单金属Mn的存在可以降低甲烷的起燃温度,使催化剂具有良好的低温活性;单金属Fe掺杂的六铝酸镧催化剂具有较低的完全转化温度;而Fe、Mn共同掺杂的LaMnFeAl-10O19－α催化剂具有低、高温活性和高温稳定性。100h稳定性运转的转化率始终保持在99.7％,无失活现象。     

Formation and Characterization of a Useful Biological Microemulsion System Using Mixed Oil (Ricebran and Isopropyl Myristate), Polyoxyethylene(2)oleyl Ether (Brij 92), Isopropyl Alcohol,and Water

A ‘biological microemulsion’ prepared using mixed oil (ricebran oil and isopropylmyristate), mixed amphiphiles (Brij 92 and isopropyl alcohol), and water has been studied with respect to phase behavior, shear viscosity, droplet dimension, and energetics of formation. The viscosity measured at different shear rates and temperatures has been analyzed for understanding the internal consistency of the system, and the activation parameters for its viscous flow. The hydrodynamic diameter, diffusion coefficient, and polydispersity of the dispersed droplets of both water-in-oil and oil-in-water samples have been determined from dynamic light scattering (DLS) experiments. The energetics of formation have been evaluated from calorimetric measurements.     

Alkyl (C<Subscript>10</Subscript>, C<Subscript>12</Subscript>, C<Subscript>14</Subscript> and C<Subscript>16</Subscript>) triphenyl phosphonium bromide influenced cloud points of nonionic surfactants (Triton X 100, Brij 56 and Brij 97) and the polymer (Polyvinyl methyl ether)

The clouding points (CP) of the nonionic surfactants p-tert-octyl phenyl polyoxyethylene ether (Triton X 100), Brij-56 and Brij-97, and the water soluble polymer polyvinylmethylether (PVME) have been measured in the presence of the ionic surfactants alkyl (C₁₀, C₁₂, C₁₄ and C₁₆) triphenyl phosphonium bromides (ATPBs). The threshold additive concentrations required for efficient CP enhancement of the systems that were studied have been determined. Considering CP as the threshold state of phase separation, the energetics of the process at different additive concentrations has been evaluated. The spontaneity of free energy of the clouding process (G _c ⁰ ) at the transition concentrations followed the order PVME > TX 100  Bj 56 > Bj 97. The clouding process has been found to be energetically endothermic with fairly large enthalpy and entropy changes that nicely compensate each other. The compensation temperature has been evaluated and compared with different types of the clouding agents.This revised version was published online in January 2005 with corrections to the names of the authors.