Polymeric toroidal assemblies from ionic homopolymers with shackling photo-responsive behavior

IF 3.9 2区化学 Q2 POLYMER SCIENCE

Polymer Chemistry Pub Date : 2025-07-24 DOI:10.1039/d5py00586h

Qingqing Yang, Junjun Lv, Jinye Wang, Wei Song, Liang Ding

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Abstract

The uniformity and tunable ring size of toroidal nanostructures are promising in many fields but still challenging. Herein, polyolefin-based homopolymers with pyridinium cation junctions between the main chain parts and alkyl azobenzene pendants were systematically synthesized and further self-assembled into preformed spheres based on the multiple effects of solvophobic backbone, electrostatic force and strong non-covalent aromatic–aromatic interaction. Subsequently, UV-light-triggered shackling trans→cis photoisomerization transition was demonstrated, meanwhile, the uniform toroids with stable shape and adjustable dimension were observed after continuously irradiating UV-light and eventually reaching the photostationary state. The mechanistic investigation further confirmed that the strong non-covalent interaction generated during the significantly confined photoisomerization process is essential for the formation of polymeric toroid. Importantly, the toroidal morphology is insusceptible to the used solvent system, but the ring size can be optionally adjusted from nanoscale to microscale. We expect that the importance of regulation multiple non-covalent interactions in reinforcing each other will offer a new avenue to induce self-assembly of homopolymer to produce the uniform and particular morphology.

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具有束缚光响应行为的离子均聚物聚合环面组件

环形纳米结构的均匀性和可调环尺寸在许多领域都是有前景的，但仍然具有挑战性。本文系统地合成了主链部分与烷基偶氮苯悬垂之间具有吡啶阳离子连接的聚烯烃基均聚物，并基于疏溶剂主链、静电力和强非共价芳-芳相互作用的多重作用，进一步自组装成预成型球。随后，证明了紫外光触发的反式→顺式光异构化转变，同时，在紫外光的持续照射下，观察到形状稳定、尺寸可调的均匀环面，最终达到光静止状态。机理研究进一步证实了在明显受限的光异构化过程中产生的强烈的非共价相互作用是聚合物环状体形成的必要条件。重要的是，环形形态不受所用溶剂系统的影响，但环的尺寸可以从纳米级调整到微米级。我们期望通过调控多种非共价相互作用在相互增强中的重要性，为诱导均聚物的自组装产生均匀和特定的形态提供新的途径。

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来源期刊

Polymer Chemistry POLYMER SCIENCE-

CiteScore

8.60

自引率

8.70%

发文量

535

审稿时长

1.7 months

期刊介绍： Polymer Chemistry welcomes submissions in all areas of polymer science that have a strong focus on macromolecular chemistry. Manuscripts may cover a broad range of fields, yet no direct application focus is required.