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Cavity-Shape-Dependent Divergent Chemical Reaction inside Aqueous Pd6L4 Cages

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JOURNAL OF THE AMERICAN CHEMICAL SOCIETY
卷 145, 期 49, 页码 26973-26982

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AMER CHEMICAL SOC
DOI: 10.1021/jacs.3c10191

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Chemical reactions inside enzyme-mimicking hosts, such as cages and macrocycles, have been the focus of research. This study demonstrates how the shape of the molecular container influences the divergent synthesis of nonisomeric products.
Chemical reactions inside the confined pockets of enzyme-mimicking hosts, such as cages and macrocycles, have been an emerging field of interest over the past decade. Although many such reactions are known, the use of such cages toward the divergent synthesis of nonisomeric products has not been well explored. Divergent synthesis is a technique of forming two or more distinct products from the same reagents by changing the catalyst or reaction conditions. Changing the shape of the cage can also change the nature and magnitude of the host-guest interactions. Thus, is it possible for such changes to cause differences in the reaction pathways leading to formation of nonisomeric products? Herein, we report a divergent chemical transformation of anthrone [anthracen-9(10H)-one] inside different water-soluble M6L4 cages. When anthrone was encapsulated inside a newly synthesized M6L4 octahedral cage 1, it dimerized to form dianthrone [9,9 '-bianthracen-10,10 '(9H,9 ' H)-dione]. In contrast, when the same chemical reaction was performed inside a M6L4 double-square shaped cage 2, it was oxidized to form anthraquinone [anthracene-9,10-dione]. Similar results were obtained with a different set of isomeric aqueous Pd-6 cages 3a (octahedral cage) and 3b (double-square cage), indicating the dependence of the shape of cavity on the divergent synthesis. The present report demonstrates a unique example of different outcomes/results of a reaction depending on the shape of the molecular container, which was driven by the host-guest interactions and the preorganization of the substrates.

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