聚烷基化三(环氧乙烷)异氰酸酯水溶液温度响应的分子动力学计算

Macromol Pub Date : 2023-09-08 DOI:10.3390/macromol3030036
Shunsuke Mizutani, Shunya Kita, Naoya Sakai, Takuya Yamamoto, Andrej Koleżyński, T. Kakuchi, Shin-ichiro Sato
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引用次数: 0

摘要

传统的温度响应型两亲性聚合物的水溶液在较低的临界溶液温度(LCST)附近发生线圈球构象转变,导致聚合物表面变得疏水,聚合物聚集在一起。具有烷基化低聚(环氧乙烷)侧链的异氰酸酯聚合物预计具有刚性主链,因此不会经历卷球结构转变,但最近有报道称它们具有温度响应特性。本研究采用分子动力学方法计算了两链聚(烷基化三(环氧乙烷)异氰酸酯(PRTEOIC, R =甲基(Me)或乙基(Et))在水溶液中的团聚倾向,以阐明在没有卷球构象转变的情况下的LCST现象。我们的MD模拟表明,在棒状聚合物中也会发生聚集。此外,我们发现(PMeTEOIC)2和(PEtTEOIC)2在温度升高时都表现出平行的分子链团聚,但只有(PMeTEOIC)2在中温范围内表现出亚稳的t形团聚。侧链烷基周围第一个疏水水化壳的密度等于体积水密度时的交点温度(TCRP)是预测以烷基端接的密集侧链棒状聚合物LCST的有效指标。
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Molecular Dynamics Calculations for the Temperature Response of Poly(alkylated tri(ethylene oxide)isocyanate) Aqueous Solution
Aqueous solutions of conventional temperature-responsive amphiphilic polymers undergo a coil–globule conformational transition around the lower critical solution temperature (LCST) that causes the polymer surfaces to become hydrophobic and the polymers to aggregate together. Isocyanate polymers with alkylated oligo(ethylene oxide) side chains are expected to have rigid main chains and, thus, do not undergo the coil–globule structural transition, but they have recently been reported to exhibit temperature-responsive properties. In this study, molecular dynamics was used to calculate the agglomeration tendencies of two chains of poly(alkylated tri(ethylene oxide)isocyanate) (PRTEOIC, where R = methyl (Me) or ethyl (Et)) in aqueous solution to elucidate the LCST phenomenon in the absence of coil–globule conformational transition. Our MD simulations showed that aggregation also occurs in rod polymers. Furthermore, we found that both (PMeTEOIC)2 and (PEtTEOIC)2 showed parallel agglomeration of the two molecular chains with increasing temperature, but only (PMeTEOIC)2 showed a metastable T-shaped agglomeration in the middle temperature range. The crossing-point temperature (TCRP) at which the density of the first hydrophobic hydration shell around the sidechain alkyl group equals the bulk water density is a useful indicator for predicting the LCST of rod polymers with dense side chains terminated by alkyl groups.
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