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引用次数: 0
摘要
在设计水介质中的光收获和光致发光超分子系统时,制造两亲性光开关可通过光照射实现非侵入性功能响应。虽然大多数水性超分子组装体都是由高能量和具有生物破坏性的紫外线驱动的,但我们以前曾报道过一种由白光控制的两亲性供体-受体斯登豪斯加合物(DASAs)的设计。在此,我们介绍了一系列 DASA 两性化合物(DAs),这些化合物对连接 DASA 主题和亲水分子的烷基连接链长度进行了微小的结构修改。通过紫外-可见吸收光谱,研究了在可见光的驱动下,DASA 在有机介质中的优异光开关性和在水介质中的光致响应性。电子显微镜确认了组装好的超分子纳米结构,而 X 射线衍射分析则揭示了超分子堆积。在可见光照射下,DA 的几何形状发生了显著变化,使超分子组装体在微观尺度上发生了转变,随后DA 的宏观软支架被分解。目前的工作表明,可见光控制的宏观支架的制造大有可为,为具有可见光控制微环境的下一代生物医学材料和未来的软机器人系统提供了可能。
Supramolecular assemblies of amphiphilic donor–acceptor Stenhouse adducts as macroscopic soft scaffolds
In the design of photoharvesting and photoresponsive supramolecular systems in aqueous medium, the fabrication of amphiphilic photoswitches enables a noninvasive functional response through photoirradiation. Although most aqueous supramolecular assemblies are driven by high-energy and biodamaging UV light, we have previously reported a design of amphiphilic donor–acceptor Stenhouse adducts (DASAs) controlled by white light. Herein, we present a series of DASA amphiphiles (DAs) with minor structural modifications on the alkyl linker chain length connecting the DASA motif with the hydrophilic moiety. The excellent photoswitchability in organic medium and the photoresponsiveness in aqueous medium, driven by visible light, were investigated by UV–vis absorption spectroscopy. The assembled supramolecular nanostructures were confirmed by electron microscopy, while the supramolecular packing was revealed by X-ray diffraction analysis. Upon visible-light irradiation, significant transformations of the DA geometry enabled transformations of the supramolecular assemblies on a microscopic scale, subsequently disassembling macroscopic soft scaffolds of DAs. The current work shows promising use for the fabrication of visible-light-controlled macroscopic scaffolds, offering the next generation of biomedical materials with visible-light-controlled microenvironments and future soft-robotic systems.
期刊介绍:
The Beilstein Journal of Organic Chemistry is an international, peer-reviewed, Open Access journal. It provides a unique platform for rapid publication without any charges (free for author and reader) – Platinum Open Access. The content is freely accessible 365 days a year to any user worldwide. Articles are available online immediately upon publication and are publicly archived in all major repositories. In addition, it provides a platform for publishing thematic issues (theme-based collections of articles) on topical issues in organic chemistry.
The journal publishes high quality research and reviews in all areas of organic chemistry, including organic synthesis, organic reactions, natural product chemistry, structural investigations, supramolecular chemistry and chemical biology.
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