Toward Mimicking Viral Geometry with Metal-Organic Systems

Toward Mimicking Viral Geometry with Metal-Organic Systems

Icosahedral and cuboctahedral arrangements of calixarenes, a nanometer-scale, spheroidal assembly of 12 calixarene molecules, can be manipulated in a highly controlled fashion. Previously, such assemblies were observed to favor placement of the calixarenes at the vertexes of an icosahedron. A supram...

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Veröffentlicht in:Journal of the American Chemical Society 2004-10, Vol.126 (41), p.13170-13171
Hauptverfasser: Atwood, Jerry L, Barbour, Leonard J, Dalgarno, Scott J, Hardie, Michaele J, Raston, Colin L, Webb, Helen R
Format: Artikel
Sprache:eng
Schlagworte:
Atomic and molecular clusters
Atomic and molecular physics
Biomimetic Materials - chemistry
Calixarenes - chemistry
Exact sciences and technology
Hydrophobic and Hydrophilic Interactions
Lanthanoid Series Elements - chemistry
Macromolecular Substances - chemistry
Models, Molecular
Organometallic Compounds - chemistry
Phenols - chemistry
Physics
Spectroscopy and geometrical structure of clusters
Studies of special atoms, molecules and their ions
clusters
Sulfonic Acids - chemistry
Viruses - chemistry
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Beschreibung
Zusammenfassung:Icosahedral and cuboctahedral arrangements of calixarenes, a nanometer-scale, spheroidal assembly of 12 calixarene molecules, can be manipulated in a highly controlled fashion. Previously, such assemblies were observed to favor placement of the calixarenes at the vertexes of an icosahedron. A supramolecular constraint is employed in order to enforce molecular alignment and produce a cuboctahedral arrangement. The internal volume of the cuboctahedron is approximately 30% greater than that of the icosahedron. Furthermore, in stark contrast to that of the icosahedral Platonic solid, the shell of the cuboctahedral Archimedean solid is porous.
ISSN:0002-7863
1520-5126
DOI:10.1021/ja048058r