Joshua Wiethölter, Aylin Koldemir, M. Reimann, T. Block, Jutta Kösters, O. Janka, Rainer Pöttgen
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引用次数: 1
摘要
摘要:采用高频炉封闭钽安瓿反应合成了ca2pd2ge型锡化物Sr2Pd2Sn和Eu2Pd2Sn,并用粉末x射线衍射对其进行了表征。利用单晶x射线衍射仪数据对Sr2Pd2Sn (Fdd2, a = 1063.95(5), b = 1623.22(9), c = 594.63(14) pm, wR2 = 0.0472, 972 F2值和26个变量)的结构进行了精确化。钯原子(304.7 pm Pd-Pd)与锡原子(266.9 pm Pd-Sn和268.7 pm Pd-Sn)形成等距链。钯和锡原子一起形成一个三维的[Pd2Sn]δ -聚阴离子网络,其中锶原子驻留在更大的空腔中。铕在Eu2Pd2Sn中的二价性质通过151Eu Mössbauer光谱得到了体现。在室温下,同分异构体位移δ =−9.48(1)mm s−1。119Sn Mössbauer-spectroscopic实验结果证实了单晶研究确定的锡位,Eu2Pd2Sn和Sr2Pd2Sn的异构体位移分别为δ = 1.71(1) mm s−1和δ = 1.73(1) mm s−1。Sr2Pd2Sn为泡利顺磁体,室温磁化率为2.2(1)× 10−5 emu mol−1。Eu2Pd2Sn具有居里-魏斯顺磁性,每个Eu原子的实验磁矩为7.85(1)µB,证实为二价铕。在TN = 14k时,铕的磁矩呈反铁磁序。
Mössbauer-spectroscopic characterization of the stannides Sr2Pd2Sn and Eu2Pd2Sn
Abstract The Ca2Pd2Ge-type stannides Sr2Pd2Sn and Eu2Pd2Sn were synthesized by reaction of the elements in sealed tantalum ampoules in a high-frequency furnace and characterized by powder X-ray diffraction. The structure of Sr2Pd2Sn (Fdd2, a = 1063.95(5), b = 1623.22(9), c = 594.63(14) pm, wR2 = 0.0472, 972 F2 values and 26 variables) was refined from single-crystal X-ray diffractometer data. The striking structural motif features equidistant chains formed by the palladium atoms (304.7 pm Pd–Pd), which are interlinked by the tin atoms (266.9 and 268.7 pm Pd–Sn). Together, the palladium and tin atoms form a three-dimensional [Pd2Sn]δ– polyanionic network in which the strontium atoms reside in larger cavities. The divalent character of europium in Eu2Pd2Sn was manifested by 151Eu Mössbauer spectroscopy. The isomer shift is δ = −9.48(1) mm s−1 at room temperature. The results of 119Sn Mössbauer-spectroscopic experiments have confirmed the tin site determined by the single-crystal study, the isomer shifts being δ = 1.71(1) mm s−1 for Eu2Pd2Sn and δ = 1.73(1) mm s−1 for Sr2Pd2Sn. Sr2Pd2Sn is a Pauli paramagnet with a susceptibility of 2.2(1) × 10−5 emu mol−1 at room temperature. Eu2Pd2Sn shows Curie-Weiss paramagnetism with an experimental magnetic moment of 7.85(1) µB per Eu atom, confirming divalent europium. The europium magnetic moments order antiferromagnetically at TN = 14 K.
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