光驱动的螺吡喃功能化共价有机框架的自组装

Light-driven self-assembly of spiropyran-functionalized covalent organic framework.

作者信息

Das Gobinda, Prakasam Thirumurugan, Alkhatib Nour, AbdulHalim Rasha G, Chandra Falguni, Sharma Sudhir Kumar, Garai Bikash, Varghese Sabu, Addicoat Matthew A, Ravaux Florent, Pasricha Renu, Jagannathan Ramesh, Saleh Na'il, Kirmizialtin Serdal, Olson Mark A, Trabolsi Ali

机构信息

Chemistry Program, New York University Abu Dhabi (NYUAD), Saadiyat Island, Abu Dhabi, United Arab Emirates.

Chemistry Department, College of Science, United Arab Emirates University, P.O. Box 15551, Al-Ain, United Arab Emirates.

出版信息

Nat Commun. 2023 Jun 23;14(1):3765. doi: 10.1038/s41467-023-39402-8.

DOI:10.1038/s41467-023-39402-8

PMID:37353549

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10290075/

Abstract

Controlling the number of molecular switches and their relative positioning within porous materials is critical to their functionality and properties. The proximity of many molecular switches to one another can hinder or completely suppress their response. Herein, a synthetic strategy involving mixed linkers is used to control the distribution of spiropyran-functionalized linkers in a covalent organic framework (COF). The COF contains a spiropyran in each pore which exhibits excellent reversible photoswitching behavior to its merocyanine form in the solid state in response to UV/Vis light. The spiro-COF possesses an urchin-shaped morphology and exhibits a morphological transition to 2D nanosheets and vesicles in solution upon UV light irradiation. The merocyanine-equipped COFs are extremely stable and possess a more ordered structure with enhanced photoluminescence. This approach to modulating structural isomerization in the solid state is used to develop inkless printing media, while the photomediated polarity change is used for water harvesting applications.

摘要

控制分子开关的数量及其在多孔材料中的相对位置对于其功能和性质至关重要。许多分子开关彼此靠近可能会阻碍或完全抑制它们的响应。在此，一种涉及混合连接体的合成策略被用于控制螺吡喃功能化连接体在共价有机框架（COF）中的分布。该COF在每个孔中都含有一个螺吡喃，其在固态下对紫外/可见光响应，表现出对部花青形式优异的可逆光开关行为。螺COF具有海胆状形态，在紫外光照射下在溶液中呈现向二维纳米片和囊泡的形态转变。配备部花青的COF极其稳定，具有更有序的结构和增强的光致发光。这种在固态中调节结构异构化的方法被用于开发无墨打印介质，而光介导的极性变化则用于集水应用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/aee2/10290075/38257bdf9272/41467_2023_39402_Fig1_HTML.jpg

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光驱动的螺吡喃功能化共价有机框架的自组装

Light-driven self-assembly of spiropyran-functionalized covalent organic framework.

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