Synergetic activation of "silent receptor" sites leading to a new type of inclusion complex: integration of a 64-membered ring comprising K+ and SO42- ions into a molybdenum oxide-based nanoobject

Müller A, Toma L, Bögge H, Schmidtmann M, Kögerler P (2003)
CHEMICAL COMMUNICATIONS (16): 2000-2001.

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Zeitschriftenaufsatz | Veröffentlicht | Englisch
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Abstract / Bemerkung
The new type of inclusion species [(Mo114Mo32O429)-Mo-VI-O-V(H2O)(50)(KSO4)(16)](30-) comprising 16 encapsulated K+ and SO42- ions shows an unusual 64-membered {K(SO4)}(16) ring integrated into a wheel-shaped type nanocluster host; it is formed by a synergetically induced functional complementarity and represents a text-book example of a very complex non-biological material.
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CHEMICAL COMMUNICATIONS
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16
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2000-2001
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Müller A, Toma L, Bögge H, Schmidtmann M, Kögerler P. Synergetic activation of "silent receptor" sites leading to a new type of inclusion complex: integration of a 64-membered ring comprising K+ and SO42- ions into a molybdenum oxide-based nanoobject. CHEMICAL COMMUNICATIONS. 2003;(16):2000-2001.
Müller, A., Toma, L., Bögge, H., Schmidtmann, M., & Kögerler, P. (2003). Synergetic activation of "silent receptor" sites leading to a new type of inclusion complex: integration of a 64-membered ring comprising K+ and SO42- ions into a molybdenum oxide-based nanoobject. CHEMICAL COMMUNICATIONS(16), 2000-2001. doi:10.1039/b305447k
Müller, A., Toma, L., Bögge, H., Schmidtmann, M., and Kögerler, P. (2003). Synergetic activation of "silent receptor" sites leading to a new type of inclusion complex: integration of a 64-membered ring comprising K+ and SO42- ions into a molybdenum oxide-based nanoobject. CHEMICAL COMMUNICATIONS, 2000-2001.
Müller, A., et al., 2003. Synergetic activation of "silent receptor" sites leading to a new type of inclusion complex: integration of a 64-membered ring comprising K+ and SO42- ions into a molybdenum oxide-based nanoobject. CHEMICAL COMMUNICATIONS, (16), p 2000-2001.
A. Müller, et al., “Synergetic activation of "silent receptor" sites leading to a new type of inclusion complex: integration of a 64-membered ring comprising K+ and SO42- ions into a molybdenum oxide-based nanoobject”, CHEMICAL COMMUNICATIONS, 2003, pp. 2000-2001.
Müller, A., Toma, L., Bögge, H., Schmidtmann, M., Kögerler, P.: Synergetic activation of "silent receptor" sites leading to a new type of inclusion complex: integration of a 64-membered ring comprising K+ and SO42- ions into a molybdenum oxide-based nanoobject. CHEMICAL COMMUNICATIONS. 2000-2001 (2003).
Müller, Achim, Toma, L, Bögge, Hartmut, Schmidtmann, Marc, and Kögerler, Paul. “Synergetic activation of "silent receptor" sites leading to a new type of inclusion complex: integration of a 64-membered ring comprising K+ and SO42- ions into a molybdenum oxide-based nanoobject”. CHEMICAL COMMUNICATIONS 16 (2003): 2000-2001.

3 Zitationen in Europe PMC

Daten bereitgestellt von Europe PubMed Central.

Chemical adaptability: the integration of different kinds of matter into giant molecular metal oxides.
Müller A, Merca A, Al-Karawi AJ, Garai S, Bögge H, Hou G, Wu L, Haupt ET, Rehder D, Haso F, Liu T., Chemistry 18(51), 2012
PMID: 23180718
A nanosized molybdenum oxide wheel with a unique electronic-necklace structure: STM study with submolecular resolution.
Zhong D, Sousa FL, Müller A, Chi L, Fuchs H., Angew Chem Int Ed Engl 50(31), 2011
PMID: 21717545
Self-assembly in aqueous solution of wheel-shaped Mo154 oxide clusters into vesicles.
Liu T, Diemann E, Li H, Dress AW, Müller A., Nature 426(6962), 2003
PMID: 14603315

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