通过聚合物结晶提高机械分子活化能力

IF 5.1 Q1 POLYMER SCIENCE
Qinxin Sheng, Rui Tan, Xiaohua Zhang, Hang Shen, Zhengbiao Zhang
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引用次数: 0

摘要

在聚合物机械化学领域,块状线性聚合物内机械分子的活化通常受限于较低的活化率。在此,我们证明聚合物的结晶可显著提高机械分子的活化。以含罗丹明的聚(乳酸)(PLA)和聚己内酯(PCL)为代表,我们的研究揭示了结晶产生的微机械力比压缩和超声诱导的宏观机械力更有效地激活机械分子,这一点在低分子量聚合物中尤为明显。此外,研究还发现力学分子的活化与结晶度和聚合物分子量呈正相关,而聚合物的手性并不影响其活化。这项研究为聚合物结晶诱导的机械化学反应提供了新的见解,并为提高机械化学反应活性提供了一种新的方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Enhancing Mechanophore Activation through Polymer Crystallization

Enhancing Mechanophore Activation through Polymer Crystallization
In the field of polymer mechanochemistry, the activation of mechanophores within linear polymers in the bulk state is often limited by low activation rates. Herein, we demonstrate that the crystallization of polymers can significantly enhance the activation of mechanophores. Employing rhodamine-containing poly(lactic acid) (PLA) and polycaprolactone (PCL) as representative examples, our study reveals that the micromechanical force generated by crystallization is more effective in activating mechanophores than the macroscopic mechanical force induced by compression and ultrasonication, which is particularly pronounced for polymers with low molecular weights. Furthermore, the activation of the mechanophore is found to be positively correlated with the degree of crystallinity and polymer molecular weight, whereas the chirality of polymers does not influence the activation. This study offers new insights into mechanochemical reactions induced by polymer crystallization and provides a novel approach to enhancing mechanochemical reactivity.
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来源期刊
CiteScore
10.40
自引率
3.40%
发文量
209
审稿时长
1 months
期刊介绍: ACS Macro Letters publishes research in all areas of contemporary soft matter science in which macromolecules play a key role, including nanotechnology, self-assembly, supramolecular chemistry, biomaterials, energy generation and storage, and renewable/sustainable materials. Submissions to ACS Macro Letters should justify clearly the rapid disclosure of the key elements of the study. The scope of the journal includes high-impact research of broad interest in all areas of polymer science and engineering, including cross-disciplinary research that interfaces with polymer science. With the launch of ACS Macro Letters, all Communications that were formerly published in Macromolecules and Biomacromolecules will be published as Letters in ACS Macro Letters.
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