Influence of chain length of amido betaines and amine degree of diamines on the binary supramolecular assembly and viscosity dynamics of amido betaine/diamine coacervates

Q3 Materials Science
Yu-Ting Lin , Wentao Zhou , Shuhao Liu , Bhargavi Bhat , Kai-Yuan Kuan , Silabrata Pahari , Joseph Kwon , Mustafa E.S. Akbulut
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Abstract

Recently, there has been growing interest in the hierarchical assemblies of zwitterionic betaine amphiphiles across various fields due to their utility as stimuli-responsive materials. Herein, we systematically investigate the binary supramolecular assembly of zwitterionic amido betaines and diamines to determine how alkyl chain length of amido betaines (CnDAB) and amine degree of diamines influence their relaxation dynamics of the resultant coacervates. To this end, we synthesized five CnDAB molecules with systematically varying carbon chain lengths (n = 12, 14, 16, 18, and 20) and conjugated them with three different diamines (ethylenediamine, EDA; n,n'-dimethylethylenediamine, DMEDA; and n,n,n',n'-tetramethylethylenediamine,TMEDA). We employed rheology to compare the bulk properties and relaxation dynamics of these assemblies as well as to gain insight into their responsiveness to pH stimulus. All betaine/diamine co-assemblies for all pH values showed shear-thinning behavior while the onset of shear thinning behavior showed some variation for the shear rate inducing such an onset. By changing molecular architecture of co-assembling pairs, zero-shear viscosity values varied from ∼10−1 Pa s to ∼103 Pa s at a concentration of 100 mM CnDAB and 50 mM diamine in water. Four-order-of-magnitude difference in viscosity with small changes in molecular architecture and pH indicates that precise tuning of the rheological properties is possible simply by controlling the self-assembly tendencies and nano-to-micro scale aggregation morphologies through bi-molecular design. Out of 15 different combinations of betaine and diamine pairs studied, the primary amine EDA conjugated with C18DAB resulted in the highest degree of pH-controlled viscosity changes (i.e., highest pH-responsivity). Below 16-carbon alkyl chains on the betaines, pH responsiveness mostly disappeared. Overall, this systematic study brings new insights into the molecular structure-property relationships of amido betaine/diamine systems, which are widely used in diverse sets of applications and fields.

Abstract Image

氨基甜菜碱的链长和二胺的胺度对氨基甜菜碱/二胺共凝聚体的二元超分子组装和粘度动力学的影响
近来,由于具有刺激响应材料的作用,各领域对齐聚氨基甜菜碱双亲化合物的分层组装越来越感兴趣。在此,我们系统地研究了两性离子型氨基甜菜碱和二胺的二元超分子组装,以确定氨基甜菜碱(CnDAB)的烷基链长和二胺的胺度如何影响所产生的共凝聚体的弛豫动力学。为此,我们合成了五种碳链长度各异(n = 12、14、16、18 和 20)的 CnDAB 分子,并将它们与三种不同的二胺(乙二胺,EDA;n,n'-二甲基乙二胺,DMEDA;和 n,n,n',n'-四甲基乙二胺,TMEDA)共轭。我们采用流变学方法比较了这些组装体的体积特性和弛豫动力学,并深入了解了它们对 pH 值刺激的响应性。在所有 pH 值条件下,所有甜菜碱/二胺共聚物都表现出剪切稀化行为,而剪切稀化行为的开始时间则因剪切速率的不同而有所差异。通过改变共组装对的分子结构,在水中浓度为 100 mM CnDAB 和 50 mM 二胺时,零剪切粘度值从 ∼10-1 Pa s 到 ∼103 Pa s 不等。分子结构和 pH 值稍有变化,粘度就会出现四个数量级的差异,这表明只需通过双分子设计控制自组装趋势和纳米到微米级的聚集形态,就能精确调节流变特性。在所研究的 15 种不同的甜菜碱和二胺组合中,与 C18DAB 共轭的伯胺 EDA 可产生最高程度的 pH 值控制粘度变化(即最高的 pH 值响应性)。甜菜碱上的烷基链低于 16 个碳时,pH 反应性大多消失。总之,这项系统性研究为广泛应用于各个领域的氨基甜菜碱/二胺体系的分子结构-性能关系带来了新的见解。
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
JCIS open
JCIS open Physical and Theoretical Chemistry, Colloid and Surface Chemistry, Surfaces, Coatings and Films
CiteScore
4.10
自引率
0.00%
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0
审稿时长
36 days
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