Mineralization‐Inspired Synthesis of Magnetic Zeolitic Imidazole Framework Composites

Metal–organic frameworks (MOFs) capable of mobility and manipulation are attractive materials for potential applications in targeted drug delivery, catalysis, and small‐scale machines. One way of rendering MOFs navigable is incorporating magnetically responsive nanostructures, which usually involve...

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Veröffentlicht in:Angewandte Chemie International Edition 2019-09, Vol.58 (38), p.13550-13555
Hauptverfasser: Terzopoulou, Anastasia, Hoop, Marcus, Chen, Xiang‐Zhong, Hirt, Ann M., Charilaou, Michalis, Shen, Yang, Mushtaq, Fajer, del Pino, Angel Pérez, Logofatu, Constantin, Simonelli, Laura, Mello, Andrew J., Doonan, Christian J., Sort, Jordi, Nelson, Bradley J., Pané, Salvador, Puigmartí‐Luis, Josep
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Sprache:eng
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Zusammenfassung:Metal–organic frameworks (MOFs) capable of mobility and manipulation are attractive materials for potential applications in targeted drug delivery, catalysis, and small‐scale machines. One way of rendering MOFs navigable is incorporating magnetically responsive nanostructures, which usually involve at least two preparation steps: the growth of the magnetic nanomaterial and its incorporation during the synthesis of the MOF crystals. Now, by using optimal combinations of salts and ligands, zeolitic imidazolate framework composite structures with ferrimagnetic behavior can be readily obtained via a one‐step synthetic procedure, that is, without the incorporation of extrinsic magnetic components. The ferrimagnetism of the composite originates from binary oxides of iron and transition metals such as cobalt. This approach exhibits similarities to the natural mineralization of iron oxide species, as is observed in ores and in biomineralization. Using optimal combinations of salts and ligands, zeolitic imidazolate framework composite structures with ferrimagnetic behavior can be readily obtained by a one‐step synthesis. The ferrimagnetism of the composite originates from binary oxides of iron and transition metals. This approach shows similarities to the natural mineralization of iron oxide species, as is observed in ores and in biomineralization.
ISSN:1433-7851
1521-3773
DOI:10.1002/anie.201907389