Neue Pnictide im CaAl2Si2-Typ und dessen Existenzgebiet/New Pnictides with the CaAl2Si2 Type Structure and the Stability Range of this Type

Neue Pnictide im CaAl2Si2-Typ und dessen Existenzgebiet/New Pnictides with the CaAl2Si2 Type Structure and the Stability Range of this Type

Five new compounds were synthesized by heating mixtures of the elements at 600 - 1000 °C and investigated by powder and single crystal X-ray methods. EuMg (a = 4.280(1), c = 7.164(3) Å), EuMg As (a = 4.393(1), c = 7.321(1) Å),EuMg Sb (a = 4.695(1), c = 7.724(2) Å), YbMg Sb (a = 4.650(1), c = 7.540(2...

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Veröffentlicht in:Zeitschrift für Naturforschung. B, A journal of chemical sciences A journal of chemical sciences, 2002-11, Vol.57 (11), p.1270-1276
Hauptverfasser: Wartenberg, Franziska, Kranenberg, Christian, Pocha, Regina, Johrendt, Dirk, Mewis, Albrecht, Hoffmann, Rolf-Dieter, Mosel, Bernd D., Pöttgen, Rainer
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Magnetism
Mössbauer Spectroscopy
Pnictides
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container_issue 11
container_start_page 1270
container_title Zeitschrift für Naturforschung. B, A journal of chemical sciences
container_volume 57
creator Wartenberg, Franziska
Kranenberg, Christian
Pocha, Regina
Johrendt, Dirk
Mewis, Albrecht
Hoffmann, Rolf-Dieter
Mosel, Bernd D.
Pöttgen, Rainer
description Five new compounds were synthesized by heating mixtures of the elements at 600 - 1000 °C and investigated by powder and single crystal X-ray methods. EuMg (a = 4.280(1), c = 7.164(3) Å), EuMg As (a = 4.393(1), c = 7.321(1) Å),EuMg Sb (a = 4.695(1), c = 7.724(2) Å), YbMg Sb (a = 4.650(1), c = 7.540(2) Å), and SrLiAlSb (a = 4.584(3), c = 7.697(9) Å) crystallize with the CaAl Si type structure (P3̄m1; Z = 1). The magnetic susceptibility of EuMg Sb shows Curie-Weiss behavior with an experimental magnetic moment of 7.48(2) μ /Eu atom and a Weiss constant θ = 3.2(1) K. EuMg Sb is ordered antiferromagnetically at 8.2(3) K. Magnetisation measurements at 4.5 K show a linear increase and a saturation for a magnetic moment of 5.9(1) μ /Eu at 5.5 T, indicating an almost parallel spin alignment with increasing field strength. 151Eu Mössbauer spectra at 78 K show an isomer shift of -11.69(5) mm/s, compatible with divalent europium. At 4.2 K we observe full hyperfine field splitting with 23 T. The Sb spectrum at 4.2 K shows a transferred hyperfine field of 8(2) T at an isomer shift of -7.9(3) mm/s. From the band structure of EuMg Sb we draw the conclusion, that analogous compounds of trivalent rare-earth metals with CaAl Si type structure should not exist due to electronic reasons.
doi_str_mv 10.1515/znb-2002-1112
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B, A journal of chemical sciences</title><description>Five new compounds were synthesized by heating mixtures of the elements at 600 - 1000 °C and investigated by powder and single crystal X-ray methods. EuMg (a = 4.280(1), c = 7.164(3) Å), EuMg As (a = 4.393(1), c = 7.321(1) Å),EuMg Sb (a = 4.695(1), c = 7.724(2) Å), YbMg Sb (a = 4.650(1), c = 7.540(2) Å), and SrLiAlSb (a = 4.584(3), c = 7.697(9) Å) crystallize with the CaAl Si type structure (P3̄m1; Z = 1). The magnetic susceptibility of EuMg Sb shows Curie-Weiss behavior with an experimental magnetic moment of 7.48(2) μ /Eu atom and a Weiss constant θ = 3.2(1) K. EuMg Sb is ordered antiferromagnetically at 8.2(3) K. Magnetisation measurements at 4.5 K show a linear increase and a saturation for a magnetic moment of 5.9(1) μ /Eu at 5.5 T, indicating an almost parallel spin alignment with increasing field strength. 151Eu Mössbauer spectra at 78 K show an isomer shift of -11.69(5) mm/s, compatible with divalent europium. 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B, A journal of chemical sciences</jtitle><date>2002-11-01</date><risdate>2002</risdate><volume>57</volume><issue>11</issue><spage>1270</spage><epage>1276</epage><pages>1270-1276</pages><issn>0932-0776</issn><eissn>1865-7117</eissn><abstract>Five new compounds were synthesized by heating mixtures of the elements at 600 - 1000 °C and investigated by powder and single crystal X-ray methods. EuMg (a = 4.280(1), c = 7.164(3) Å), EuMg As (a = 4.393(1), c = 7.321(1) Å),EuMg Sb (a = 4.695(1), c = 7.724(2) Å), YbMg Sb (a = 4.650(1), c = 7.540(2) Å), and SrLiAlSb (a = 4.584(3), c = 7.697(9) Å) crystallize with the CaAl Si type structure (P3̄m1; Z = 1). The magnetic susceptibility of EuMg Sb shows Curie-Weiss behavior with an experimental magnetic moment of 7.48(2) μ /Eu atom and a Weiss constant θ = 3.2(1) K. EuMg Sb is ordered antiferromagnetically at 8.2(3) K. Magnetisation measurements at 4.5 K show a linear increase and a saturation for a magnetic moment of 5.9(1) μ /Eu at 5.5 T, indicating an almost parallel spin alignment with increasing field strength. 151Eu Mössbauer spectra at 78 K show an isomer shift of -11.69(5) mm/s, compatible with divalent europium. At 4.2 K we observe full hyperfine field splitting with 23 T. The Sb spectrum at 4.2 K shows a transferred hyperfine field of 8(2) T at an isomer shift of -7.9(3) mm/s. From the band structure of EuMg Sb we draw the conclusion, that analogous compounds of trivalent rare-earth metals with CaAl Si type structure should not exist due to electronic reasons.</abstract><pub>Verlag der Zeitschrift für Naturforschung</pub><doi>10.1515/znb-2002-1112</doi><tpages>7</tpages></addata></record>
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source Alma/SFX Local Collection
subjects Magnetism
Mössbauer Spectroscopy
Pnictides
title Neue Pnictide im CaAl2Si2-Typ und dessen Existenzgebiet/New Pnictides with the CaAl2Si2 Type Structure and the Stability Range of this Type
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