Space group, crystal structure and twinning of lanthanum trifluoride

Abstract: Crystal-structure investigations of LaF 3 crystals twinned by merohedry have been carried out with X-ray and neutron diffraction data. The twin law can be described by any one of the additional symmetry elements of point group 6/mmm compared to 3ml. The superimposed intensities were used for structure refinements. Structure parameters as well as the volume ratios for the two twin domains were determined. These structure refinements resulted in R (I) = 0.092 for 666 neutron data and R(I) = 0.059 for 964 X-ray d… Show more

“…1 and 2) corresponding to the three fluorine sites of the structure, in good agreement with the work of Wang and Grey [27] who studied the mobility of fluorine sites in connection with ionic conductivity. The [29,30] and in general LiLnF 4 compounds in agreement with the spectra obtained.…”

High temperature NMR approach of mixtures of rare earth and alkali fluorides: An insight into the local structure

“…1 and 2) corresponding to the three fluorine sites of the structure, in good agreement with the work of Wang and Grey [27] who studied the mobility of fluorine sites in connection with ionic conductivity. The [29,30] and in general LiLnF 4 compounds in agreement with the spectra obtained.…”

High temperature NMR approach of mixtures of rare earth and alkali fluorides: An insight into the local structure

“…Further, there is still some disagreement concerning the exact lattice structure of LaF 3 [6]. However, a trigonal structure of spacegroup P3cl-D4a is the most likely [7]. There are three distinct types of fluoride ion sites in the ratio 12:4:2 (F 1 :F2:F3).…”

Electronic conductivity in La1−xBaxF3−x crystals

“…Thus, almost ''naked'' metal centers surrounded with weakly coordinating AF 6 À anions can interact with different, even weak ligands. Therefore, the compounds M n+ (AF 6 À ) n represent excellent starting materials for the preparation of novel salts of the type [M n+ (L) m ](AF 6 À ) n with AsF 3 and XeF 2 as possible ligands (L).…”

Synthesis of novel salts with HF, AsF3 and XeF2 as ligands to metal cations