Caterpillar Track Complexes in Template-Directed Synthesis and Correlated Molecular Motion.

Angewandte Chemie (Weinheim an der Bergstrasse, Germany) Pub Date : 2015-04-27 Epub Date: 2015-02-12 DOI:10.1002/ange.201412293

Shiqi Liu, Dmitry V Kondratuk, Sophie A L Rousseaux, Guzmán Gil-Ramírez, Melanie C O'Sullivan, Jonathan Cremers, Tim D W Claridge, Harry L Anderson

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Abstract

Small alterations to the structure of a star-shaped template totally change its mode of operation. The hexapyridyl template directs the conversion of a porphyrin dimer to the cyclic hexamer, but deleting one pyridine site changes the product to the cyclic decamer, while deleting two binding sites changes the product to the cyclic octamer. This surprising switch in selectivity is explained by the formation of 2:1 caterpillar track complexes, in which two template wheels bind inside the nanoring. Caterpillar track complexes can also be prepared by binding the hexapyridyl template inside the 8- and 10-porphyrin nanorings. NMR exchange spectroscopy (EXSY) experiments show that these complexes exhibit correlated motion, in which the conrotatory rotation of the two template wheels is coupled to rotation of the nanoring track. In the case of the 10-porphyrin system, the correlated motion can be locked by binding palladium(II) dichloride between the two templates.

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模板指导合成和相关分子运动中的毛毛虫轨道复合物。

星形模板结构的微小改变就会完全改变其工作模式。六吡啶模板能将卟啉二聚体转化为环状六聚体，但删除一个吡啶位点会将产物转化为环状十聚体，而删除两个结合位点则会将产物转化为环状八聚体。这种令人惊讶的选择性变化可以用 2:1 毛毛虫轨道复合物的形成来解释，在这种复合物中，两个模板轮在纳米oring 内结合。毛毛虫轨道复合物也可以通过在 8-和 10-卟啉纳米环内结合六吡啶模板来制备。核磁共振交换光谱（EXSY）实验表明，这些复合物表现出相关运动，其中两个模板轮的旋转与纳米环轨道的旋转相耦合。在 10-卟啉系统中，通过在两个模板之间结合二氯化钯（II），可以锁定相关运动。

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Angewandte Chemie (Weinheim an der Bergstrasse, Germany)

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