超分子聚合物中的有序-无序转变。

Order-disorder transition in supramolecular polymers.

机构信息

Matière Molle et Chimie (UMR 7167 ESPCI-CNRS), ESPCI ParisTech, 10 rue Vauquelin 75005 Paris, France.

出版信息

J Am Chem Soc. 2011 Dec 14;133(49):19672-5. doi: 10.1021/ja209126a. Epub 2011 Nov 17.

DOI:10.1021/ja209126a

PMID:22074342

Abstract

In supramolecular polymers, directional interactions control the constituting units connectivity, but dispersion forces may conspire to make complex organizations. Here we report on the long-range order and order-disorder transition (ODT) of main-chain supramolecular polymers based on poly(propylene oxide) (PPO) spacers functionalized on both ends with thymine. Below the ODT temperature (T(ODT)), these compounds are semicrystalline with a lamellar structure, showing nanophase separation between crystallized thymine planes and amorphous PPO layers. Above T(ODT), they are amorphous and homogeneous even though their X-ray scattering spectrum reveals a peak. This peak is due to correlation hole effect resulting from contrast between end-functional groups and spacer. Macroscopically, the transition is accompanied by dramatic flow and mechanical properties changes.

摘要

在超分子聚合物中，定向相互作用控制着构成单元的连接性，但分散力可能会协同作用，形成复杂的组织。在这里，我们报告了基于聚（环氧丙烷）（PPO）间隔物的主链超分子聚合物的长程有序和有序-无序转变（ODT），这些间隔物在两端都用胸腺嘧啶官能化。在 ODT 温度（T（ODT））以下，这些化合物是半结晶的，具有层状结构，在结晶胸腺嘧啶平面和无定形 PPO 层之间显示出纳米相分离。在 T（ODT）以上，它们是无定形和均匀的，尽管它们的 X 射线散射光谱显示出一个峰值。这个峰值是由于端基和间隔物之间的对比度导致的相关空洞效应引起的。宏观上，这种转变伴随着剧烈的流动和力学性能的变化。

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超分子聚合物中的有序-无序转变。

Order-disorder transition in supramolecular polymers.

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