A classification scheme for ternary structures with infinite antiprism and octahedron columns used to predict the structure of Sc₃Re₂Si₄

Abstract: A classification of temary transition-metal silicides (and germanides) containing infinite parallel columns of Si(Ge)-centered square antiprisms and infinite parallel columns of transition-metal-centered octahedra is given which is based on the composition of the antiprisms and on the linkage of the octahedra. This scheme allows one to classify the following structure types: Zr4foaGe7, Nb4Cr2Sis, Nb2CraSis, Hf2Ru3Si4, and also ZrFeSi2, ZrMnSi2 and LuMnGe2. The previously reported Sc3Re2Si3 structure has struct… Show more

“…Yb 2 Ru 3 Ge 4 is isotypic with Hf 2 Ru 3 Si 4 [14,15]. So far, only Zr 2 Ru 3 Si 4 [15] crystallizes with this peculiar monoclinic structure type, and Sc 3 Re 2 Si 4 can be considered as a site occupancy variant of Hf 2 Ru 3 Si 4 [14]. The Sc 3 Re 2 Si 4 and Hf 2 Ru 3 Si 4 structures belong to a larger family of intermetallic structure types that can be constructed from infinite antiprism and octahedron columns.…”

“…Yb 2 Ru 3 Ge 4 is isotypic with Hf 2 Ru 3 Si 4 [14,15]. So far, only Zr 2 Ru 3 Si 4 [15] crystallizes with this peculiar monoclinic structure type, and Sc 3 Re 2 Si 4 can be considered as a site occupancy variant of Hf 2 Ru 3 Si 4 [14].…”

“…The Sc 3 Re 2 Si 4 and Hf 2 Ru 3 Si 4 structures belong to a larger family of intermetallic structure types that can be constructed from infinite antiprism and octahedron columns. Chabot and Partheé ffectively used this classification scheme to predict the structure of Sc 3 Re 2 Si 4 [14].…”

“…Pearson code mC72 then readily revealed isotypism with Hf 2 Ru 3 Si 4 [14,15]. Consequently, in the final cycles, the Yb 2 Ru 3 Ge 4 structure was refined with the setting of Hf 2 Ru 3 Si 4 .…”

“…Intermetallic Yb x T y X z compounds (T ¼ late transition metal; X ¼ element of the 3rd, 4th, or 5th main group) are interesting candidates when searching for intermediate valence materials, since ytterbium can occur in the diamagnetic divalent ([Xe]4f 14 ) or paramagnetic trivalent ([Xe]4f 13 ) oxidation state. Especially the trivalent ytterbium compounds are interesting for comparison with related cerium intermetallics, since they exhibit the f-hole analogue of [Xe]4f 1 cerium.…”

Bridgman crystal growth of Yb2Ru3Ge4—A ternary germanide with a three-dimensional network of condensed distorted RuGe5 and RuGe6 units

“…Yb 2 Ru 3 Ge 4 is isotypic with Hf 2 Ru 3 Si 4 [14,15]. So far, only Zr 2 Ru 3 Si 4 [15] crystallizes with this peculiar monoclinic structure type, and Sc 3 Re 2 Si 4 can be considered as a site occupancy variant of Hf 2 Ru 3 Si 4 [14]. The Sc 3 Re 2 Si 4 and Hf 2 Ru 3 Si 4 structures belong to a larger family of intermetallic structure types that can be constructed from infinite antiprism and octahedron columns.…”

“…Yb 2 Ru 3 Ge 4 is isotypic with Hf 2 Ru 3 Si 4 [14,15]. So far, only Zr 2 Ru 3 Si 4 [15] crystallizes with this peculiar monoclinic structure type, and Sc 3 Re 2 Si 4 can be considered as a site occupancy variant of Hf 2 Ru 3 Si 4 [14].…”

“…The Sc 3 Re 2 Si 4 and Hf 2 Ru 3 Si 4 structures belong to a larger family of intermetallic structure types that can be constructed from infinite antiprism and octahedron columns. Chabot and Partheé ffectively used this classification scheme to predict the structure of Sc 3 Re 2 Si 4 [14].…”

“…Pearson code mC72 then readily revealed isotypism with Hf 2 Ru 3 Si 4 [14,15]. Consequently, in the final cycles, the Yb 2 Ru 3 Ge 4 structure was refined with the setting of Hf 2 Ru 3 Si 4 .…”

“…Intermetallic Yb x T y X z compounds (T ¼ late transition metal; X ¼ element of the 3rd, 4th, or 5th main group) are interesting candidates when searching for intermediate valence materials, since ytterbium can occur in the diamagnetic divalent ([Xe]4f 14 ) or paramagnetic trivalent ([Xe]4f 13 ) oxidation state. Especially the trivalent ytterbium compounds are interesting for comparison with related cerium intermetallics, since they exhibit the f-hole analogue of [Xe]4f 1 cerium.…”

Bridgman crystal growth of Yb2Ru3Ge4—A ternary germanide with a three-dimensional network of condensed distorted RuGe5 and RuGe6 units

New Phases in the Sc−Mn−Si and Sc−Mn−Al−Si Systems Through Molten Indium Flux Synthesis

Nouveaux stannures ternaires: MMn6Sn6 (M = Sc, Y, Sm, Gd-Tm, Lu) ET ScFe6Sn6