Jlc. Daams et P. Villars, ATOMIC ENVIRONMENT CLASSIFICATION OF THE TETRAGONAL INTERMETALLIC STRUCTURE TYPES, Journal of alloys and compounds, 252(1-2), 1997, pp. 110-142
In this paper we give a complete description of the geometrical atomic
environments found in the tetragonal intermetallic structure types. W
e analyzed the 404 structure types, having 4471 compounds crystallizin
g in them with, all together, 18233 point sets, for their geometrical
correctness. Our analysis showed that 294 are possible, with 4264 comp
ounds and 17157 point sets, while the remaining 110 structure types ha
ve for example improbable interatomic distances or are excluded becaus
e they are oxides with no intermetallic compounds crystallizing in the
se structure types. In addition, we observed that in the 294 structure
types 23 atomic environment types are greatly preferred. Out of 17157
investigated point sets, 14194 (83%) belong to one of these 23 atomic
environment types. Of the 4264 compounds crystallizing in one of the
294 structure types, 16% belong to a single environment group (structu
res in which all atoms have the same type of environment), 17% combine
two environment types, 42% have three environments, 13% have four env
ironments and the rest (12%) have five or more environments. Our syste
matic and comprehensive analysis of the tetragonal structure types ver
ified all presently known relationships between these structure types
but also revealed new non-trivial relationships.