Self-Templating and In Situ Assembly of a Cubic Cluster-of-Clusters Architecture Based on a {Mo24Fe12} Inorganic Macrocycle

Engineering self‐templating inorganic architectures is critical for the development of bottom‐up approaches to nanoscience, but systems with a hierarchy of templates are elusive. Herein we describe that the cluster‐anion‐templated (CAT) assembly of a {CAT}⊂{Mo24Fe12} macrocycle forms a giant ca. 220...

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Veröffentlicht in:	Angewandte Chemie International Edition 2016-10, Vol.55 (41), p.12703-12707
Hauptverfasser:	Xuan, Weimin, Surman, Andrew J., Zheng, Qi, Long, De-Liang, Cronin, Leroy
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Sprache:	eng
Schlagworte:	anion templating Communication Communications host-guest chemistry macrocycles polyoxometalates supramolecular cages
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creator	Xuan, Weimin Surman, Andrew J. Zheng, Qi Long, De-Liang Cronin, Leroy
description	Engineering self‐templating inorganic architectures is critical for the development of bottom‐up approaches to nanoscience, but systems with a hierarchy of templates are elusive. Herein we describe that the cluster‐anion‐templated (CAT) assembly of a {CAT}⊂{Mo24Fe12} macrocycle forms a giant ca. 220 nm3 unit cell containing 16 macrocycles clustered into eight face‐shared tetrahedral cluster‐of‐clusters assemblies. We show that {CAT}⊂{Mo24Fe12} with different CATs gives the compounds 1–4 for CAT=Anderson {FeMo6} (1), Keggin {PMo12} (2), Dawson {P2W18} (3), and {Mo12O36(HPO3)2} (4) polyoxometalates. “Template‐free” assembly can be achieved, whereby the macrocycle components can also form a template in situ allowing template to macrocycle to superstructure formation and the ability to exchange the templates. Furthermore, the transformation of template clusters within the inorganic macrocycle {Mo24Fe12} allows the self‐generation of an uncapped {Mo12O36(HPO3)2} in compound 4. Be my guest: A series of {Mo24Fe12} macrocycles featuring supramolecular tetrahedron architectures is formed via anion‐templated self‐assembly. Transformation between macrocycles is realized by template exchange. The {Mo24Fe12} is used as a confined reaction vessel for the in situ generation of uncapped {Mo12(HPO3)2} within the macrocycle.
doi_str_mv	10.1002/anie.201603298
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Herein we describe that the cluster‐anion‐templated (CAT) assembly of a {CAT}⊂{Mo24Fe12} macrocycle forms a giant ca. 220 nm3 unit cell containing 16 macrocycles clustered into eight face‐shared tetrahedral cluster‐of‐clusters assemblies. We show that {CAT}⊂{Mo24Fe12} with different CATs gives the compounds 1–4 for CAT=Anderson {FeMo6} (1), Keggin {PMo12} (2), Dawson {P2W18} (3), and {Mo12O36(HPO3)2} (4) polyoxometalates. “Template‐free” assembly can be achieved, whereby the macrocycle components can also form a template in situ allowing template to macrocycle to superstructure formation and the ability to exchange the templates. Furthermore, the transformation of template clusters within the inorganic macrocycle {Mo24Fe12} allows the self‐generation of an uncapped {Mo12O36(HPO3)2} in compound 4. Be my guest: A series of {Mo24Fe12} macrocycles featuring supramolecular tetrahedron architectures is formed via anion‐templated self‐assembly. 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Chem. Int. Ed</addtitle><description>Engineering self‐templating inorganic architectures is critical for the development of bottom‐up approaches to nanoscience, but systems with a hierarchy of templates are elusive. Herein we describe that the cluster‐anion‐templated (CAT) assembly of a {CAT}⊂{Mo24Fe12} macrocycle forms a giant ca. 220 nm3 unit cell containing 16 macrocycles clustered into eight face‐shared tetrahedral cluster‐of‐clusters assemblies. We show that {CAT}⊂{Mo24Fe12} with different CATs gives the compounds 1–4 for CAT=Anderson {FeMo6} (1), Keggin {PMo12} (2), Dawson {P2W18} (3), and {Mo12O36(HPO3)2} (4) polyoxometalates. “Template‐free” assembly can be achieved, whereby the macrocycle components can also form a template in situ allowing template to macrocycle to superstructure formation and the ability to exchange the templates. Furthermore, the transformation of template clusters within the inorganic macrocycle {Mo24Fe12} allows the self‐generation of an uncapped {Mo12O36(HPO3)2} in compound 4. Be my guest: A series of {Mo24Fe12} macrocycles featuring supramolecular tetrahedron architectures is formed via anion‐templated self‐assembly. Transformation between macrocycles is realized by template exchange. 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Chem. Int. Ed</addtitle><date>2016-10-04</date><risdate>2016</risdate><volume>55</volume><issue>41</issue><spage>12703</spage><epage>12707</epage><pages>12703-12707</pages><issn>1433-7851</issn><eissn>1521-3773</eissn><abstract>Engineering self‐templating inorganic architectures is critical for the development of bottom‐up approaches to nanoscience, but systems with a hierarchy of templates are elusive. Herein we describe that the cluster‐anion‐templated (CAT) assembly of a {CAT}⊂{Mo24Fe12} macrocycle forms a giant ca. 220 nm3 unit cell containing 16 macrocycles clustered into eight face‐shared tetrahedral cluster‐of‐clusters assemblies. 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subjects	anion templating Communication Communications host-guest chemistry macrocycles polyoxometalates supramolecular cages
title	Self-Templating and In Situ Assembly of a Cubic Cluster-of-Clusters Architecture Based on a {Mo24Fe12} Inorganic Macrocycle
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