竞争活化实验表明呋喃-马来酰亚胺和蒽-马来酰亚胺机械基团的机械化学反应活性有显著差异

IF 4.7 Q1 POLYMER SCIENCE ACS polymers Au Pub Date : 2022-11-21 DOI:10.1021/acspolymersau.2c00047
Stella M. Luo, Ross W. Barber, Anna C. Overholts and Maxwell J. Robb*, 
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引用次数: 2

摘要

在过去的二十年里,我们对机械化学反应的理解有了很大的进步。然而,对结构-活性关系和控制机械化学转化的原理的不完全了解限制了分子设计。因此,机械载体的实验发展得益于CoGEF等简单的计算工具,从中可以提取断裂力等定量指标来估计反应性。呋喃-马来酰亚胺(FM)和蒽-马来酰酰亚胺(AM)Diels–Alder加合物是广泛研究的机械载体,在聚合物中进行机械活化时会发生逆Diels–Alder反应。尽管具有显著不同的热稳定性,但CoGEF计算预测的类似断裂力表明,这些化合物表现出类似的机械化学反应性。在这里,我们通过竞争活化实验直接探测FM和AM加合物的相对机械化学反应性。超声诱导的包括共价连接的FM和AM亚基的双加合物机械载体的机械化学活化显示出显著的选择性─高达~13:1─用于FM加合物与AM加合物的反应。计算模型提供了对FM机械载体更大反应性的深入了解,表明与AM加合物相比,FM加合物具有更有效的机械化学偶联。这里采用的使用系留双加合物构型直接询问两种不同机械载体的相对反应性的方法可能适用于其他系统,在这些系统中,更常见的基于超声处理的方法因灵敏度低而受到限制。
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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Competitive Activation Experiments Reveal Significantly Different Mechanochemical Reactivity of Furan–Maleimide and Anthracene–Maleimide Mechanophores

During the past two decades, our understanding of mechanochemical reactivity has advanced considerably. Nevertheless, an incomplete knowledge of structure–activity relationships and the principles that govern mechanochemical transformations limits molecular design. The experimental development of mechanophores has thus benefited from simple computational tools like CoGEF, from which quantitative metrics like rupture force can be extracted to estimate reactivity. Furan–maleimide (FM) and anthracene–maleimide (AM) Diels–Alder adducts are widely studied mechanophores that undergo retro-Diels–Alder reactions upon mechanical activation in polymers. Despite possessing significantly different thermal stability, similar rupture forces predicted by CoGEF calculations suggest that these compounds exhibit similar mechanochemical reactivity. Here, we directly probe the relative mechanochemical reactivity of FM and AM adducts through competitive activation experiments. Ultrasound-induced mechanochemical activation of bis-adduct mechanophores comprising covalently tethered FM and AM subunits reveals pronounced selectivity─as high as ∼13:1─for reaction of the FM adduct compared to the AM adduct. Computational models provide insight into the greater reactivity of the FM mechanophore, indicating a more efficient mechanochemical coupling for the FM adduct compared to the AM adduct. The methodology employed here to directly interrogate the relative reactivity of two different mechanophores using a tethered bis-adduct configuration may be useful for other systems where more common sonication-based approaches are limited by poor sensitivity.

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