Accession Number : ADA184104
Title : Topological Aspects of Infinite Metal Clusters and Superconductors.
Descriptive Note : Technical rept.,
Corporate Author : GEORGIA UNIV ATHENS DEPT OF CHEMISTRY
Personal Author(s) : King,R B
PDF Url : ADA184104
Report Date : 11 Aug 1987
Pagination or Media Count : 23
Abstract : This paper summarizes the chemical bonding topology of infinite metal clusters as well as superconductors constructed from metal octahedra or metal tetrahedra. The chemical bonding topologies of discrete octahedral metal clusters can be either edge-localized (e.g., Mo6x8L64+ derivatives), face-localized (e.g., Nb6x12L62+ derivatives), or globally delocalized (e.g., Zr6mu2-CL)12ECLn-12 derivatives where E=Be, B, C, N,). Infinite fusion of metal octahedra in one, two, and three dimensions leads to metal cluster chains (e.g., Gd2CI3), metal cluster sheets (e.g., ZrCL), and bulk metals, respectively. Superconductors exhibiting relatively high critical temperatures and magnetic fields are constructed from edge-localized metal polyhedra such as the Mo6 octahedra in the ternary molybdenum chalcogenides (Chevrel phases) and Rh4 tetrahedra in the ternary lanthanide rhodium borides leading naturally to the concept of porous delocalization in such materials.
Descriptors : *SUPERCONDUCTORS, METAL COMPLEXES, TOPOLOGY
Subject Categories : Inorganic Chemistry
Electricity and Magnetism
Distribution Statement : APPROVED FOR PUBLIC RELEASE