B. Fehrmann

THE PHOSPHIDOSILICATE-POLYPHOSPHIDES LaSiP₃ AND Th₂SiP₅

Birgit Fehrmann and Wolfgang Jeitschko

Anorganisch-Chemisches Institut, Universität Münster, Wilhelm-Klemm-Straße 8, D-48149 Münster, Germany
E-mail: fehrman@uni-muenster.de

Keywords: Crystal Structure, Phosphidosilicates, Polyphosphides, Twinning

The preparation of LaSiP₃ has been reported by Hayakawa, Sekine and Ono [1]. The crystal structure, however, has not been determined at that time. Th₂SiP₅ has first been prepared by Hofmann [2]. We have determined the crystal structures of both compounds from four-circle X-ray diffracto-meter data of twinned crystals. The crystal structure of LaSiP₃ was first solved for an F centered orthorhombic cell, space group Fmmm, a = 582.3 pm, b = 597.0 pm and c = 2525.1 pm. With the refinement in this space group most light-atom positions were found with fractional occupancy. A refinement with a monoclinic cell (Cm, a = 597.2(1) pm, b = 2525.5(7) pm, c = 416.8(1) pm, b= 135.71(2)°, Z = 4, R = 0.059 for 1469 structure factors and 30 variable parameters), accounting for twinning, resulted in a structure, where all atomic positions are nearly fully occupied. The structure can be described to a first approximation by the formula La⁺³(SiP₂)^-2P^-1, where silicon and phosphorus atoms alternate, thus forming puckered hexagonal rings, which are condensed to two-dimensionally infinite nets

Fig. 1. The crystal structures of LaSiP₃ and Th₂SiP₅.

(Fig. 1). In addition to the three phosphorus neighbours within one net, each silicon atom has a terminal fourth phosphorus neighbour, resulting in the formula (SiP₂)^-2. The remaining phosphorus atoms form chains. However, these phosphorus positions are not fully occupied. Nevertheless, because the P-P distances in these chains (240 and 245 pm) are somewhat greater than the typical two-electron bond distances, these phosphorus atoms can still be assigned a formal charge of -1. The exact formula of the compound is LaSiP_2.91(5).

The structure of Th₂SiP₅ is pseudo-tetragonal. It was solved first from a twinned crystal assuming monoclinic symmetry (Cm, a = 574.4 pm, b = 569.4 pm, c = 1028.1 pm, b= 90.22°). However, in this refinement the silicon atoms within the linked SiP₄ tetrahedra have occupancy parameters of one half. A fully ordered structure was refined assuming twinning of a triclinic cell: P1, a = 404.3(1) pm, b = 404.5(1) pm and c = 1027.9(2) pm, a = 90.09(2)°, b = 90.09(2)° and g = 89.50(2)°, Z = 1, R = 0.047 for 1276 structure factors and 38 variable parameters. In this structure the SiP₄ tetrahedra are linked via corners, thus forming chains, which can be represented by the formula (SiP₃). The remaining phosphorus atoms form a polyphosphidic layer in the form of a distorted square grid with one short P-P distance of 235 pm, which is emphasized in Fig. 1.

H. Hayakawa, T. Sekine and S. Ono, J. Less- Common Met. 41 (1975) 197-210.
W. K. Hofmann, Diplomarbeit, Universität Gießen (1979).