Yn. Grin et al., NEW YTTERBIUM COMPOUNDS WITH THE BAAL4 TYPE OF STRUCTURE - CRYSTAL-CHEMISTRY AND MAGNETIC-PROPERTIES OF YB(CU,AG,AU,PD,PT)XGA4-X, Journal of alloys and compounds, 196(1-2), 1993, pp. 207-212
Ternary samples with the composition Yb(Cu,Ag,Au,Pd,Pt)xGa4-x have bee
n synthesized from the elements by high frequency melting followed by
heat treatment at 600-degrees-C. The crystal structure of all compound
s was investigated using X-ray single-crystal or powder techniques and
belongs to the BaAl4 type of structure. The homogeneity regions of th
e Yb(Cu,Ag,Au,Pd,Pt)xGa4-x phases have been established from X-ray pow
der diffraction analyses and lie in the range x = 0.30-0.95 for Cu, 0.
25-0.43 for Ag, 0.22-1.45 for Au, 0.23-0.65 for Pt and near x = 0.25 f
or Pd. The unit cell dimensions vs. composition reveal a significant d
eviation from Vegard's rule for Cu and Au and a slight deviation for A
g and Pt. A partially ordered occupation of the 4d and 4e sites in the
BaAl4 structure type has been found depending on the M/Ga ratio in th
e homogeneity range. The weak temperature-dependent paramagnetism of t
hese compounds is due to the non-magnetic ground state of ytterbium (Y
b2+). However, for YbPt0.5Ga3.5 a rather intermediate valence behaviou
r (Yb2+ --> Yb3+) is encountered.