Charge Mediated Changes to the Intrinsic Viscosity of Biopolymer Systems.

IF 4.7 3区工程技术 Q1 POLYMER SCIENCE

Polymers Pub Date : 2024-10-14 DOI:10.3390/polym16202894

Anand Raja, Philipp K Wilfert, Stephen J Picken

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Abstract

A theoretical approach is presented to quantify the effect of ionic strength on the swelling and shrinkage of the hydrodynamic coil size of a generic biopolymer. This was conducted in view of extraction methods that often utilize acids and alkali combinations and, therefore, invariably impact the levels of salt found in commercially available biopolymers. This approach is supplemented by intrinsic viscosity measurements for the purpose of validation across a variety of biopolymer architectures, type of functionalization, as well as the quoted molar mass. By accurately capturing the magnitude of change in the coil size, it is discussed how a biopolymer coil size is far more sensitive to changes in the ionic strength than it is to the molar mass (or contour length) itself. In turn, it is highlighted why the current characterization strategies that make use of weight-averaged molar mass are prone to errors and cannot be used to establish structure-property relationships for biopolymers. As an alternative, the scope of developing an accurate understanding of coil sizes due to changes in the "soft" interactions is proposed, and it is recommended to use the coil size itself to highlight the underlying structure-property relationships.

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电荷介导的生物聚合物体系内在粘度变化。

本文介绍了一种理论方法，用于量化离子强度对普通生物聚合物水动力线圈尺寸膨胀和收缩的影响。由于萃取方法通常使用酸碱组合，因此必然会影响市售生物聚合物中的盐分含量。为了对各种生物聚合物结构、官能化类型以及所引用的摩尔质量进行验证，该方法还辅以固有粘度测量。通过准确捕捉线圈尺寸的变化幅度，讨论了生物聚合物线圈尺寸对离子强度变化的敏感性远远高于对摩尔质量（或轮廓长度）本身的敏感性。反过来，还强调了为什么目前使用重量平均摩尔质量的表征策略容易出现误差，并且不能用于建立生物聚合物的结构-性能关系。作为替代方案，提出了准确理解 "软 "相互作用变化引起的线圈尺寸的范围，并建议使用线圈尺寸本身来突出潜在的结构-性能关系。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Polymers POLYMER SCIENCE-

CiteScore

8.00

自引率

16.00%

发文量

4697

审稿时长

1.3 months

期刊介绍： Polymers (ISSN 2073-4360) is an international, open access journal of polymer science. It publishes research papers, short communications and review papers. Our aim is to encourage scientists to publish their experimental and theoretical results in as much detail as possible. Therefore, there is no restriction on the length of the papers. The full experimental details must be provided so that the results can be reproduced. Polymers provides an interdisciplinary forum for publishing papers which advance the fields of (i) polymerization methods, (ii) theory, simulation, and modeling, (iii) understanding of new physical phenomena, (iv) advances in characterization techniques, and (v) harnessing of self-assembly and biological strategies for producing complex multifunctional structures.