Enhanced Self-Assembly of Metal Oxides and Metal-Organic Frameworks from Precursors with Magnetohydrodynamically Induced Long-Lived Collective Spin States

Magneto‐hydrodynamic generation of long‐lived collective spin states and their impact on crystal morphology is demonstrated for three different, technologically relevant materials: COK‐16 metal organic framework, manganese oxide nanotubes, and vanadium oxide nano‐scrolls.

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Veröffentlicht in:	Advanced materials (Weinheim) 2014-08, Vol.26 (30), p.5173-5178
Hauptverfasser:	Breynaert, Eric, Emmerich, Jens, Mustafa, Danilo, Bajpe, Sneha R., Altantzis, Thomas, Van Havenbergh, Kristof, Taulelle, Francis, Bals, Sara, Van Tendeloo, Gustaaf, Kirschhock, Christine E. A., Martens, Johan A.
Format:	Artikel
Sprache:	eng
Schlagworte:	Crystals electron spin coupling magneto-hydrodynamic synthesis Manganese oxides material synthesis Metal oxides Metal-organic frameworks Nanostructure Nanotubes paramagnetic ions Precursors Self assembly Vanadium oxides weak magnetic field
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container_title	Advanced materials (Weinheim)
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creator	Breynaert, Eric Emmerich, Jens Mustafa, Danilo Bajpe, Sneha R. Altantzis, Thomas Van Havenbergh, Kristof Taulelle, Francis Bals, Sara Van Tendeloo, Gustaaf Kirschhock, Christine E. A. Martens, Johan A.
description	Magneto‐hydrodynamic generation of long‐lived collective spin states and their impact on crystal morphology is demonstrated for three different, technologically relevant materials: COK‐16 metal organic framework, manganese oxide nanotubes, and vanadium oxide nano‐scrolls.
doi_str_mv	10.1002/adma.201400835
format	Article
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subjects	Crystals electron spin coupling magneto-hydrodynamic synthesis Manganese oxides material synthesis Metal oxides Metal-organic frameworks Nanostructure Nanotubes paramagnetic ions Precursors Self assembly Vanadium oxides weak magnetic field
title	Enhanced Self-Assembly of Metal Oxides and Metal-Organic Frameworks from Precursors with Magnetohydrodynamically Induced Long-Lived Collective Spin States
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