{"title":"Reliability of Intrinsic Viscosity Estimated by Single Point Procedure at High Concentrations","authors":"Tadashi Inoue, Naoto Oba, O. Urakawa","doi":"10.1678/RHEOLOGY.42.261","DOIUrl":null,"url":null,"abstract":"k’ is typically 1/3 for good solvents, and as temperature approaches θ or as M decreases, k’ tends to 1/2. Measurement of [h ] based on the extrapolation to zero concentration is one of the most precise measurements in polymer science although it is also the simplest and cheapest method. However, the extrapolation method cannot be applied to some cases. For example, some polymers can associate and form molecular assemblies. Since [h ] can be related with hydrodynamic volume of solute, we can define [h] of these molecular assemblies hypothetically to represent the size of assemblies. The size of assemblies will vary with concentration as well as [h] of assemblies. In principle, the extrapolation to zero concentration corresponds to [h ] of the molecularly dispersed single chain, and therefore we cannot use the extrapolation method to determine [h ] of assemblies. Alternative methods are desired to determine [h] of the assembly. In this context, the length (molar mass) of thread-like micelles in aqueous solution also varies with concentration. Einaga et al. estimated intrinsic viscosity of thread-like micelles formed by polyoxyethylene alkyl ether, CiEj in the finite concentration regime with the following equation. [ ] [ ] c k c sp 2 η η η ′ + = (1)","PeriodicalId":17434,"journal":{"name":"Journal of the Society of Rheology, Japan","volume":null,"pages":null},"PeriodicalIF":0.0000,"publicationDate":"2014-10-15","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"3","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Journal of the Society of Rheology, Japan","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.1678/RHEOLOGY.42.261","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 3
Abstract
k’ is typically 1/3 for good solvents, and as temperature approaches θ or as M decreases, k’ tends to 1/2. Measurement of [h ] based on the extrapolation to zero concentration is one of the most precise measurements in polymer science although it is also the simplest and cheapest method. However, the extrapolation method cannot be applied to some cases. For example, some polymers can associate and form molecular assemblies. Since [h ] can be related with hydrodynamic volume of solute, we can define [h] of these molecular assemblies hypothetically to represent the size of assemblies. The size of assemblies will vary with concentration as well as [h] of assemblies. In principle, the extrapolation to zero concentration corresponds to [h ] of the molecularly dispersed single chain, and therefore we cannot use the extrapolation method to determine [h ] of assemblies. Alternative methods are desired to determine [h] of the assembly. In this context, the length (molar mass) of thread-like micelles in aqueous solution also varies with concentration. Einaga et al. estimated intrinsic viscosity of thread-like micelles formed by polyoxyethylene alkyl ether, CiEj in the finite concentration regime with the following equation. [ ] [ ] c k c sp 2 η η η ′ + = (1)
对于好的溶剂,k′通常是1/3,当温度接近θ或M减小时,k′趋于1/2。基于外推至零浓度的[h]测量是聚合物科学中最精确的测量方法之一,尽管它也是最简单和最便宜的方法。但是,外推法不能适用于某些情况。例如,一些聚合物可以结合并形成分子组合。由于[h]可以与溶质的水动力体积有关,我们可以假设定义这些分子组合的[h]来表示组合的大小。组件的大小将随浓度以及组件的[h]而变化。原则上,外推到零浓度对应于分子分散单链的[h],因此我们不能使用外推法来确定组装体的[h]。需要替代方法来确定装配的[h]。在这种情况下,水溶液中线状胶束的长度(摩尔质量)也随浓度的变化而变化。Einaga等人用下式估算了聚氧乙烯烷基醚(CiEj)在有限浓度下形成的丝状胶束的固有粘度。[] [] c k c sp 2 η η η ' + = (1)
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