Giant metal-oxide-based spheres and their topology: from pentagonal building blocks to keplerates and unusual spin systems
Müller A, Kögerler P, Dress A (2001)
COORDINATION CHEMISTRY REVIEWS 222(1): 193-218.
Zeitschriftenaufsatz
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Einrichtung
Abstract / Bemerkung
Novel synthesis strategies based on the geometrical and topological principles outlined here open up pathways to a new class of spherical clusters with icosahedral symmetry of the type (pentagon)(12)(linker)(30)- also called keplerates -where the centers of the 12 pentagons span an icosahedron and the centers of the 30 linkers an icosidodecahedron. Remarkably, sizing of a spherical molecule is possible for the first time. In addition to their large size of several nanometers, these molecules show unusually high symmetries. When large numbers of paramagnetic metal centers like 30 Fe-III or 20 VO2+ are integrated within their structure, extraordinary spin topologies can be realized on a discrete molecular level. Further functionalization of these systems allows, e.g. to link them forming chains or layers in solid state reactions at room temperature. (C) 2001 Elsevier Science B.V. All rights reserved.
Stichworte
polyoxometalates;
self-assembly;
clusters;
keplerates;
magnetism;
topology
Erscheinungsjahr
2001
Zeitschriftentitel
COORDINATION CHEMISTRY REVIEWS
Band
222
Ausgabe
1
Seite(n)
193-218
ISSN
0010-8545
Page URI
https://pub.uni-bielefeld.de/record/1616075
Zitieren
Müller A, Kögerler P, Dress A. Giant metal-oxide-based spheres and their topology: from pentagonal building blocks to keplerates and unusual spin systems. COORDINATION CHEMISTRY REVIEWS. 2001;222(1):193-218.
Müller, A., Kögerler, P., & Dress, A. (2001). Giant metal-oxide-based spheres and their topology: from pentagonal building blocks to keplerates and unusual spin systems. COORDINATION CHEMISTRY REVIEWS, 222(1), 193-218. https://doi.org/10.1016/S0010-8545(01)00391-5
Müller, Achim, Kögerler, Paul, and Dress, Andreas. 2001. “Giant metal-oxide-based spheres and their topology: from pentagonal building blocks to keplerates and unusual spin systems”. COORDINATION CHEMISTRY REVIEWS 222 (1): 193-218.
Müller, A., Kögerler, P., and Dress, A. (2001). Giant metal-oxide-based spheres and their topology: from pentagonal building blocks to keplerates and unusual spin systems. COORDINATION CHEMISTRY REVIEWS 222, 193-218.
Müller, A., Kögerler, P., & Dress, A., 2001. Giant metal-oxide-based spheres and their topology: from pentagonal building blocks to keplerates and unusual spin systems. COORDINATION CHEMISTRY REVIEWS, 222(1), p 193-218.
A. Müller, P. Kögerler, and A. Dress, “Giant metal-oxide-based spheres and their topology: from pentagonal building blocks to keplerates and unusual spin systems”, COORDINATION CHEMISTRY REVIEWS, vol. 222, 2001, pp. 193-218.
Müller, A., Kögerler, P., Dress, A.: Giant metal-oxide-based spheres and their topology: from pentagonal building blocks to keplerates and unusual spin systems. COORDINATION CHEMISTRY REVIEWS. 222, 193-218 (2001).
Müller, Achim, Kögerler, Paul, and Dress, Andreas. “Giant metal-oxide-based spheres and their topology: from pentagonal building blocks to keplerates and unusual spin systems”. COORDINATION CHEMISTRY REVIEWS 222.1 (2001): 193-218.
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