 An intermolecular (H2O)10 cluster in a solid-state supramolecular complexLeonard J. Barbour,
G. William Orr and
Jerry L. Atwood ()
Nature, 1998, vol. 393, issue 6686, 671-673 Abstract: Abstract Chemical self-assembly is the process by which ‘programmed’ molecular subunits spontaneously form complex supramolecular frameworks1,2. This approach has been applied to many model systems, in which hydrogen bonds3,4, metal–ligand coordination5 or other non-covalent interactions6 typically control the self-assembly process. In biology, self-assembly is generally dynamic and depends on the cooperation of many such non-covalent interactions. Water can play an important role in these biological self-assembly processes, for example by stabilizing the native conformation of biopolymers7,8,9. Hydrogen-bonded (H2O)n clusters10,11 can play an important role in stabilizing some supramolecular species, both natural and synthetic, in aqueous solution. Here we report the preparation and crystal structure of a self-assembled, three-dimensional supramolecular complex that is stabilized by an intricate array of non-covalent interactions involving contributions from solvent water clusters, most notably a water decamer ((H2O)10) with an ice-like molecular arrangement. These findings show that the degree of structuring that can be imposed on water by its surroundings, and vice versa, can be profound. Date: 1998 Downloads: (external link) Related works: Export reference: BibTeX RIS (EndNote, ProCite, RefMan) HTML/Text Persistent link: https://EconPapers.repec.org/RePEc:nat:nature:v:393:y:1998:i:6686:d:10.1038_31441 Ordering information: This journal article can be ordered from DOI: 10.1038/31441 Access Statistics for this article Nature is currently edited by Magdalena Skipper More articles in Nature from Nature |
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