| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 1329417 | Journal of Solid State Chemistry | 2016 | 11 Pages |
•La3M1–xGaCh7 (M =Ga, Ag, Zn, Cd; Ch =S, Se) adopt related hexagonal structures.•Large displacements of M atoms originate from partial occupation of multiple sites.•Bond valence sum arguments give a simple explanation for site preference.•XPS studies confirm presence of monovalent Ag in La3Ag0.6GaCh7.•Substoichiometry in La3Ag0.6GaCh7 avoids occupation of Ag–Ch antibonding levels.
The quaternary Ga-containing chalcogenides La3Ag0.6GaS7, La3Ag0.6GaSe7, La3ZnGaSe7, and La3CdGaSe7, as well as the related ternary chalcogenide La3Ga1.67S7, were prepared by reactions of the elements at 950 °C. They adopt noncentrosymmetric hexagonal structures (space group P63, Z=2) with cell parameters (a=10.2 Å, c=6.1 Å for the sulfides; a=10.6 Å, c=6.4 Å for the selenides) that are largely controlled by the geometrical requirements of one-dimensional stacks of Ga-centered tetrahedra separated by the La atoms. Among these compounds, which share the common formulation La3M1–xGaCh7 (M=Ga, Ag, Zn, Cd; Ch=S, Se), the M atoms occupy sites within a stacking of trigonal antiprisms formed by Ch atoms. The location of the M site varies between extremes with trigonal antiprismatic (CN6) and trigonal planar (CN3) geometry. Partial occupation of these sites and intermediate ones accounts for the considerable versatility of these structures and the occurrence of large metal displacement parameters. The site occupations can be understood in a simple way as being driven by the need to satisfy appropriate bond valence sums for both the M and Ch atoms. Band structure calculations rationalize the substoichiometry observed in the Ag-containing compounds (La3Ag0.6GaS7, La3Ag0.6GaSe7) as a response to overbonding. X-ray photoelectron spectroscopy supports the presence of monovalent Ag atoms in these compounds, which are not charge-balanced.
Graphical abstractPartial occupation of metal atoms in multiple sites accounts for versatility in Ga-containing chalcogenides La3M1–xGaCh7 with noncentrosymmetric hexagonal structures.Figure optionsDownload full-size imageDownload as PowerPoint slide
