气—液色谱法测定工业直链烷基磺酸盐的平均相对分子量

本文介绍闲气相色谱法定性、定量测定工业直链烷基磺酸盐在浓磷酸介质中脱磺酸基后,用石油醚萃取释出的不同碳数烷基的含量,然后,根据烷基的平均相对分子量,分别加-SO_3Na基的值,从而计算出工业直链烷基磺酸盐的平均相对分子量的方法。该法快速、简易和准确。     

电喷雾质谱法分析三次采油用石油磺酸盐

采用电喷雾质谱法测定了胜利油田三次采油用石油磺酸盐样品的分子量分布范围在200～600,数均分子量为488,重均分子量为534.鉴别出烷基苯磺酸盐、烷基萘磺酸盐、烷基茚满磺酸盐等为胜利油田磺酸盐的主要组分.同时对来自胜利、大庆、克拉玛依和玉门4个不同油田的石油磺酸盐进行区别分析.     

用反相离子对高效液相色谱法测定直链烷基苯磺酸盐的平均分子量

直链烷基苯磺酸盐(LAS)是我国合成洗衣粉中的主要活性成分,它的烷基在C_(10)～C_(13)之间。其分析方法有用重量法测定LAS的平均分子量和先用浓磷酸脱磺基后用气相色谱法(GC)测定烷基苯的平均分子量。这两种方法的分析时间冗长,操作繁琐。用高效液相色谱法(PIPLC)分离LAS已有不少工作,但用于平均分子量的测定则尚未见报导。本文提出测定洗衣粉中LAS平均分子量的方法,简便、快速,精密度好。     

自由能微扰法研究系列烷基芳基磺酸盐的胶束化焓-熵补偿现象

为了研究不同结构的表面活性剂分子在水溶液中的胶束化焓-熵补偿现象, 采用自由能微扰(FEP)法计算了系列烷基芳基磺酸盐的溶剂化自由能, 并根据胶团化过程的质量作用模型讨论了相关热力学性质. 结果表明: 自由能微扰法得到的溶剂化自由能大小与用传统热力学表面张力法测定的吉布斯自由能相近, 能够用于比较不同结构的烷基芳基磺酸盐间胶束化能力; 烷基芳基磺酸盐在水溶液中的胶束化过程是自发进行的, 且存在焓-熵补偿现象, 补偿温度范围均在(302±2) K; 随着分子结构中芳环向长烷基链中间位置移动, 胶束化能力和胶束的稳定性均下降; 而随着芳环上短烷基链或长烷基链碳数的增加, 形成胶束的能力与稳定性均提高.     

烷基芳基磺酸盐结构对微乳液相行为的影响

用Winsor相图法研究了自制的6种不同结构的烷基芳基磺酸盐/不同醇/正癸烷/NaCl/水体系在不同温度下所形成的微乳液。 探讨了烷基芳基磺酸盐结构对微乳液相行为的影响。 同时考察了温度和醇对微乳液相行为的影响。 结果表明,随着烷基芳基磺酸盐长烷基链的增长,中相形成盐度S1、中相消失盐度S2、中相盐宽ΔS和最佳盐浓度S*值均减小,最佳中相体积V*M和最佳增容量σ*值均增大;随着烷基芳基磺酸盐分子的芳环向长烷基链中间位置移动,S1、S2、ΔS、S*值均减小,V*M和σ*值均增大;随着温度升高,V*M和σ*值均减小,S1、S2、ΔS、S*值均增大,在25 ℃时,体系无中相微乳液形成;随着正构醇碳原子数的增加,V*M和σ*值均增大,S1、S2、ΔS、S*值均减小。     

系列烷基芳基磺酸盐在水溶液中胶束化的焓-熵补偿现象

以表面张力法研究了系列烷基芳基磺酸盐在水溶液中胶束化的热力学性质,并考察了温度与分子结构对胶束化的影响.结果表明,烷基芳基磺酸盐在水溶液中胶束化是一个自发过程,主要来自熵驱动;随着温度升高,先有利于胶束化而后又不利于胶束化,且熵变对吉布斯自由能变的贡献有下降趋势,而焓变的贡献有增大趋势;胶束化存在焓-熵补偿现象,补偿温度Tc均在(306±2)K,基本不随烷基芳基磺酸盐的分子结构的改变而变化;随着芳环上短烷基链或长烷基链碳数的增加,胶束化能力和胶束的稳定性均提高,而随着芳环向长烷基链中间位置移动,胶束化能力和胶束的稳定性均下降.     

紫外吸收试剂对反相液相色谱-间接紫外检测法分析烷基磺酸盐的影响

研究了不同背景紫外吸收试剂对无紫外光吸收的烷基磺酸盐检测的影响。采用反相C18色谱柱的高效液相色谱-间接紫外检测法,以背景紫外吸收试剂-有机溶剂为流动相分离烷基磺酸盐。研究不同背景紫外吸收试剂对分离检测烷基磺酸盐的影响规律和分离机理。结果表明,不同类型的背景紫外吸收试剂测定烷基磺酸盐的色谱峰类型不同。阳离子型背景紫外吸收试剂测定烷基磺酸盐时,样品峰均为正峰;阴离子型和两性离子型背景紫外吸收试剂时,样品峰均为倒峰。比较不同的背景紫外吸收试剂,发现采用阳离子型紫外吸收试剂测定烷基磺酸盐的色谱峰更好,其中以咪唑离子液体最佳,检测响应值最高。     

烷基芳基磺酸盐分子量及其分布对微乳液结构参数及热力学函数的影响

用稀释法求得了由自制的7种烷基芳基磺酸盐复配体系(AAS)/正丁醇/正癸烷/水组成的W/O型微乳液的结构参数,还求得了醇从油相转移到界面时的标准自由能,并计算出标准焓变和标准熵变。探讨了烷基芳基磺酸盐平均分子量及其分布对结构参数及热力学函数的影响。结果表明,分散相有效半径Re,内核水半径Rw,二者之差di和表面活性剂分子在每个液滴中的平均聚集数n值均呈现为正态分布<递减分布<均匀分布<递增分布<反正态分布;分散相颗粒总数Nd和分散相界面外层总面积Ad值均呈现为正态分布>递减分布>均匀分布>递增分布>反正态分布;-ΔG0o→i值呈现为正态分布(5.36 kJ/mol)<递减分布(5.49 kJ/mol)<均匀分布(5.64 kJ/mol)<递增分布(5.78 kJ/mol)<反正态分布(6.01 kJ/mol);ΔS0o→i值呈现为正态分布(26.88 J/(mol.K))<递减分布(27.12 J/(mol.K))<均匀分布(27.60 J/(mol.K))<递增分布(28.06 J/(mol.K))<反正态分布(29.23 J/(mol.K));Rw、Re、n、di、-ΔG0o→i、ΔH0o→i和ΔS0o→i值均随磺酸盐平均分子量的增大而增大;Nd、Ad值均随磺酸盐平均分子量的增大而减小;且在实验范围内,结构参数、-ΔG0o→i、ΔS0o→i与磺酸盐平均分子量均呈线性关系;后两者分别为y=0.0586x-17.916,y=0.2203x-61.275。     

不同链长烷基芳基磺酸盐形成微乳液的性质

以Winsor相态图法和拟三元相图法研究了自制的3种不同链长烷基芳基磺酸盐在多组分体系中形成的微乳液的性质, 并考察了分子结构、无机盐和短链醇等的影响. 结果表明, 无机盐浓度的增加导致表面活性剂/正丁醇/正辛烷/NaCl/水形成的微乳液体系在一定温度下发生由WinsorⅠ→ WinsorⅢ→ WinsorⅡ型转变; 随着烷基芳基磺酸盐分子的长烷基链碳原子数的增加, 耐盐能力减弱, 增溶能力提高; 随着醇碳链的增大, 微乳区面积先增大后减小. 当烷基芳基磺酸盐分子结构固定时, 最大微乳液区域醇的选择依据符合Bansal理论. 醇的链长一定时, 随着烷基芳基磺酸盐分子的长烷基链碳原子数的增加, 微乳液的区域变小.     

全氟烷基磺酸盐和全氟烷基磺酰亚胺盐的多相化催化研究

传统的Lewis酸催化剂在环境的压力下受到挑战,全氟烷基磺酸盐和全氟烷基磺酰亚胺盐作为均相、高效的Lewis酸催化剂在有机合成中受到人们的关注.为了简化分离操作,人们对全氟烷基磺酸盐和全氟烷基磺酰亚胺盐的多相化进行了研究,并已取得巨大进展.本文综述了全氟烷基磺酸盐和全氟烷基磺酰亚胺盐分别负载在有机载体、无机载体以及离子液体上的多相化催化最新研究进展,简要概括了其制备方法和催化活性,并对其催化应用前景进行了展望.     

Separation and characterization of a viscosity index improver copolymer by high-performance liquid chromatography

Summary Characterization of a poly(styrene-alkyl methacrylate) viscosity index improver according to its chemical composition distribution and molecular weight distribution was carried out by liquid adsorption chromatography, size exclusion chromatography and infrared and ultraviolet spectrophotometry. The industrial polymer was fractionated by liquid chromatography using silica gel as adsorbent and a mixture of 1,2-dichloroethane and methanol as mobile phase. Each fraction was analyzed by size exclusion chromatography and infrared and ultraviolet spectroscopy. The number average molecular weight ranged from 10000 to 36000 and the weight average molecular weight from 19000 to 264000. The styrene content of the various fractions analysed was between 29.5% and 72.2%.     

Dynamic Monte Carlo Simulation of Olefin Polymerization in Stopped-Flow Reactors

Stopped-flow reactors are very useful to estimate olefin polymerization rate constants and to investigate particle morphology development. Because the residence time in these reactors is comparable to the life time of the polymer chains, very narrow molecular weight distributions are obtained and the number average molecular weight is proportional to reactor residence time. In this case, traditional models for olefin polymerization in industrial reactors can not be applied. In this contribution, we derived analytical solutions and performed Monte Carlo simulations to describe the time evolution of the molecular weight distribution of polyolefins made with single- and multiple-site catalysts in stopped-flow reactors.     

Determination of molecular weight distributions of novolac resins by gel permeation chromatography

The number- and weight-average molecular weights of several statistical and high ortho novolac resins were determined using gel permeation chromatography (GPC). The standards used were pure compounds having between 2 and 12 phenol units bridged via methylene linkages. Three series of compounds were studied: (i) those with methylene linkages substituted in only the ortho positions relative to the phenolic hydroxyl group; (ii) those in which all para positions, together with sufficient ortho positions, were used to synthesize the compounds; and (iii) those in which the methylene linkages were substituted at a mixture of ortho and para positions. Such compounds, having known molecular architecture and units similar to the segments of industrial novolac resins, provide for a more exact measurement of the molecular weight than do the commonly used poly(styrene) standards. Using these new standards the number average molecular weights of the resins determined by GPC were in good agreement with the average molecular weight obtained by ¹H-NMR spectra of the resins, particularly for low molecular weight resins. GPC analysis of higher molecular weight resins tends to underestimate the molecular weights because of complications introduced by hydrogen bonding. © 1997 John Wiley & Sons, Inc. J Polym Sci A: Polym Chem 35: 1399–1407, 1997     

Détermination de l'aptitude à l'extrusion de polyéthylène basse densité pour le gainage des cables—I. Influence des caractéristiques physico-chimiques sur les propriétés rhéologiques de polyéthylène basse densité

For determining the capacity of low density polyethylene for wire coating, we have studied the influence of physical-chemical characteristics on the rheological properties of IdPE in the molten state. The viscous flow, characterized by the average relaxation time $\text{τ}$ and zero shear viscosity η₀ is affected by the weight-average molecular weight and the width of the molecular weight distribution. A correlation with the behaviour of these polymers during industrial processing has been established.     

Thermodynamic excess quantities in the adsorption of sodium alkylsulfonates at the air-solution interface

Colloid and Polymer Science - Data on the surface tension of sodium alkylsulfonate solutions at different temperatures and surfactant concentrations are presented. By applying the thermodynamic...     

Matrix-assisted laser desorption ionization time-of-flight mass spectrometry for the analysis of polydienes

An analytical method based on matrix-assisted laser desorption ionization (MALDI) time-of-flight mass spectrometry has been developed to provide information on oligomer structure, average molecular weight, and molecular weight distributions of polydienes (e.g., polybutadiene and polyisoprene), an important class of industrial polymers. This MALDI method involves the use of all-trans-retinoic acid as the matrix, copper (II) nitrate as the cationization reagent, and tetrahydrofuran as the solvent. The incorporation of this copper salt generates Cu⁺ adducts with the polymer chains. It also improves the signal strength and extends the upper mass range when used with all-trans-retinoic acid, as compared to silver nitrate. With this formulation, it is demonstrated that polybutadienes of narrow polydispersity with masses up to 300,000 u and polyisoprenes of narrow polydispersity with masses up to 150,000 u can be analyzed. The upper molecular weight limit is set by the requirement of using higher matrix-to-polymer ratios with increasing polymer molecular weight, to the point where the instrument can no longer detect the small quantity of polymer present in the matrix host. It is also shown that this sample preparation generates previously unreported adduction behavior. The practical implications of this adduction behavior on polymer structural analysis, accuracy of molecular weight determination, and the upper molecular weight limit of oligomer resolution are discussed. It is illustrated that, in a linear time-lag focusing MALDI instrument, oligomer resolution can be obtained for polydienes with molecular weights up to 24,000, providing structural confirmation of the end-groups and the repeat unit. The average molecular weights of a number of polydienes of narrow polydispersity determined by MALDI are compared to those obtained by gel permeation chromatography, and discrepancies are noted.     

Hydrogen as a chain terminator in continuous gas phase polymerization of propylene

The effects of hydrogen on both degree and rate of polymerization have been determined for continuous, gas phase polymerization of propylene at industrial reactor conditions. The effects of molecular weight using three modifications of TiCl₃–DEAC catalyst are correlated by Natta's equation, using number average molecular weights determined from polymer melt flow rate. The coefficients of Natta's equation, when correlated against temperature in Arhenius plots, imply that the most active catalyst is diffusion controlled because the activation energy is abnormally low. Hydrogen increases overall polymerization rate. Rate is correlated by modification to Natta's equation that accounts for hypothesized increase in active sites on catalyst surface due to adsorbed molecular hydrogen.     

Effect of thermal treatment on potato starch evidenced by EPR,XRD and molecular weight distribution

Effect of heating of the potato starch on damages of its structure was investigated by quantitative electron paramagnetic resonance (EPR) spectroscopy, X‐ray diffraction and determination of the molecular weight distribution. The measurements were performed in the temperature range commonly used for starch modifications optimizing properties important for industrial applications. Upon thermal treatment, because of breaking of the polymer chains, diminishing of the average molecular weights occurred, which significantly influences generation of radicals, evidenced by EPR. For the relatively mild conditions, with heating parameters not exceeding temperature 230 °C and time of heating equal to 30 min a moderate changes of both the number of thermally generated radicals and the mean molecular weight of the starch were observed. After more drastic thermal treatment (e.g. 2 h at 230 °C), a rapid increase in the radical amount occurred, which was accompanied by significant reduction of the starch molecular size and crystallinity. Experimentally established threshold values of heating parameters should not be exceeded in order to avoid excessive damages of the starch structure accompanied by the formation of the redundant amount of radicals. This requirement is important for industrial applications, because significant destruction of the starch matrix might annihilate the positive influence of the previously performed intentional starch modification. Copyright © 2015 John Wiley & Sons, Ltd.     

In Defense of Vapor Pressure Osmometry for Measuring Molecular Weight

The value of the average molecular weight of petroleum asphaltenes continues to be controversial. Usually the disagreement is about the measurement of a single asphaltene fraction when the need is for a consistent picture that comprises all fractions of petroleum and includes chemical changes during processing. By using one of the better solvents for carbonaceous materials, o‐dichlorobenzene, at the maximum instrument temperature, vapor pressure osmometry provides a consistent measurement of number average molecular weight not achieved by any other technique. This average molecular weight is consistent among petroleum fractions and gives predictable changes in asphaltene molecular weight with thermal processing.     

气相渗透法中的溶质吸附效应

在气相渗透仪上，用四个低分子量有机化合物和五个已知平均分子量的窄分布聚苯乙烯低聚体，对ＶＰＯ方法中的溶质吸附效应作了研究，提出了一种对吸附效应作改正的方法．所得结果表明，在扣除溶质吸附效应后，仪器常数Ｋ无分子量依赖性，提高了测定低分子量聚合物数均分子量的准确性．