The germanides ScTGe2 (T = Fe, Co, Ru, Rh) – crystal chemistry, 45Sc solid-state NMR and 57Fe Mössbauer spectroscopy

Thomas Harmening, Samir F. Matar, Constanze Fehse, Steffen Klenner, H. Eckert, Jutta Kösters, Wilma Pröbsting, Stefan Seidel, Rainer Pöttgen
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Abstract

Abstract The TiMnSi2-type (space group Pbam) germanides ScTGe2 (T = Fe, Co, Ru, Rh) were synthesized from the elements by arc-melting. Single crystals were grown by annealing sequences of the arc-melted buttons in an induction furnace. The structures of ScFeGe2, ScRuGe2 and ScRhGe2 were refined from single-crystal X-ray diffraction data. In ScRuGe2, the ruthenium atoms have distorted octahedral germanium coordination (242–268 pm Ru–Ge). Three trans-face-sharing octahedra form a sub-unit which is condensed via common edges in c direction and connected via common corners with four adjacent blocks, forming a three-dimensional [RuGe2 type] substructure. The two crystallographically independent scandium sites have coordination numbers 15 (Sc1@Ge8Ru4Sc3) and 17 (Sc2@Ge7Ru6Sc4). Electronic band structure calculations for ScCoGe2 and ScRuGe2 show a net charge transfer from the scandium to the transition metal and germanium atoms, leading to a description with polyanionic networks Scδ+[TGe2]δ−. The two crystallographically independent Sc sites are easily distinguishable by 45Sc magic-angle spinning (MAS)-NMR spectroscopy. Isotropic chemical shift values and nuclear electric quadrupolar interaction parameters were deduced from an analysis of the triple-quantum (TQ)-MAS NMR spectra. The electric field gradient parameters deduced from these experiments are in good agreement with quantum-chemical calculations using the Wien2k code. Likewise, the two crystallographically independent iron sites in ScFeGe2 could be discriminated in the 57Fe Mößbauer spectra through their isomer shifts and quadrupole splitting parameters: δ = 0.369(1) mm s−1 and ∆EQ = 0.232(2)  mm s−1 for Fe1 and δ = 0.375(2) mm s−1 and ∆EQ = 0.435(4) mm s−1 for Fe2 (data at T = 78 K).
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锗化物 ScTGe2(T = Fe、Co、Ru、Rh)--晶体化学、45Sc 固态核磁共振和 57Fe 莫斯鲍尔谱分析
摘要 通过电弧熔炼从元素中合成了 TiMnSi2-型(空间群为 Pbam)锗化物 ScTGe2(T = Fe、Co、Ru、Rh)。通过在感应炉中对电弧熔化的钮扣进行退火处理,生长出了单晶体。根据单晶 X 射线衍射数据完善了 ScFeGe2、ScRuGe2 和 ScRhGe2 的结构。在 ScRuGe2 中,钌原子具有扭曲的八面体锗配位(242-268 pm Ru-Ge)。三个跨面共享八面体组成一个子单元,该子单元通过 c 方向上的共边凝结,并通过共角与相邻的四个区块连接,形成三维 [RuGe2 型] 子结构。两个晶体学上独立的钪位点的配位数分别为 15(Sc1@Ge8Ru4Sc3)和 17(Sc2@Ge7Ru6Sc4)。ScCoGe2 和 ScRuGe2 的电子能带结构计算显示,电荷从钪向过渡金属原子和锗原子进行了净转移,从而形成了多阴离子网络 Scδ+[TGe2]δ- 描述。通过 45Sc 魔角旋光 (MAS) -NMR 光谱法,两个晶体学上独立的 Sc 位点很容易区分。通过分析三量子(TQ)-MAS NMR 光谱推导出了各向同性的化学位移值和核电四极相互作用参数。从这些实验中推导出的电场梯度参数与使用 Wien2k 代码进行的量子化学计算结果十分吻合。同样,ScFeGe2 中两个晶体学上独立的铁位点可以通过它们的异构体位移和四极分裂参数在 57Fe Mößbauer 光谱中区分开来:Fe1 的异构体位移和四极分裂参数分别为 δ = 0.369(1) mm s-1 和 ∆EQ = 0.232(2) mm s-1;Fe2 的异构体位移和四极分裂参数分别为 δ = 0.375(2) mm s-1 和 ∆EQ = 0.435(4) mm s-1(T = 78 K 时的数据)。
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