用于精确光控分子封装与释放的动态氢键偶氮大环化合物。

A Dynamic Hydrogen-Bonded Azo-Macrocycle for Precisely Photo-Controlled Molecular Encapsulation and Release.

作者信息

Ye Zecong, Yang Zhiyao, Wang Lei, Chen Lixi, Cai Yimin, Deng Pengchi, Feng Wen, Li Xiaopeng, Yuan Lihua

机构信息

College of Chemistry, Key Laboratory for Radiation Physics and Technology of Ministry of Education, Analytical and Testing Center, Sichuan University, Chengdu, 610064, China.

Department of Chemistry, University of South Florida, Tampa, FL, 33620, USA.

出版信息

Angew Chem Int Ed Engl. 2019 Sep 2;58(36):12519-12523. doi: 10.1002/anie.201906912. Epub 2019 Aug 1.

DOI:10.1002/anie.201906912

PMID:31269315

Abstract

A light-responsive system constructed from hydrogen-bonded azo-macrocycles demonstrates precisely controlled propensity in molecular encapsulation and release process. A significant decrease in the size of the cavity is observed in the course of the E→Z photoisomerization based on the results from DFT calculations and traveling wave ion mobility mass spectrometry. These macrocyclic hosts exhibit a rare 2:1 host-guest stoichiometry and guest-dependent slow or fast exchange on the NMR timescale. With the slow host-guest exchange and switchable shape change of the cavity, quantitative release and capture of bipyridinium guests is achieved with the maximum release of 68 %. This work underscores the importance of slow host-guest exchange on realizing accurate release of organic cations in a stepwise manner under light irradiation. The light-responsive system established here could advance further design of novel photoresponsive molecular switches and mechanically interlocked molecules.

摘要

由氢键连接的偶氮大环构建的光响应系统在分子包封和释放过程中表现出精确控制的倾向。基于密度泛函理论计算和行波离子迁移率质谱的结果，在E→Z光异构化过程中观察到空腔尺寸显著减小。这些大环主体表现出罕见的2:1主客体化学计量比，并且在核磁共振时间尺度上存在客体依赖性的慢或快交换。由于主客体交换缓慢且空腔形状可切换，实现了联吡啶客体的定量释放和捕获，最大释放率为68%。这项工作强调了慢主客体交换对于在光照下逐步实现有机阳离子精确释放的重要性。这里建立的光响应系统可以推动新型光响应分子开关和机械互锁分子的进一步设计。

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用于精确光控分子封装与释放的动态氢键偶氮大环化合物。

A Dynamic Hydrogen-Bonded Azo-Macrocycle for Precisely Photo-Controlled Molecular Encapsulation and Release.

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