Jan F. Riecken scite author profile

The high-pressure (HP) modification of CePtSn was prepared under multianvil high-pressure (9.2 GPa) high-temperature (1325 K) conditions from the normal-pressure (NP) modification. Both modifications were investigated by powder and single crystal X-ray data: TiNiSi type, Pnma, a = 746.89(9), b = 462.88(4), c = 801.93(7) pm, wR2 = 0.0487, 452 F2 values, 20 variable parameters for NP-CePtSn, and ZrNiAl type, P6̅2m, a = 756.919(5), c = 415.166(4) pm, wR2 = 0.0546, 252 F2 values, 14 variable parameters for HP-CePtSn. Both modifications are built up from platinumcentered trigonal prisms. Together, the platinum and tin atoms form different three-dimensional [PtSn] networks in which the cerium atoms fill channels. The crystal chemistry and chemical bonding of NP- and HP-CePtSn is discussed. Susceptibility measurements of HP-CePtSn indicate Curie-Weiss behavior above 40 K with an experimental magnetic moment of 2.55(1) μB/Ce atom, indicating trivalent cerium. No magnetic ordering could be detected down to 2 K.

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Synthesis, Structure, and Properties of the High‐Pressure Modification of CePdSn – a 5 K Antiferromagnet

Heymann

Riecken

Rayaprol

et al. 2006

Zeitschrift anorg allge chemie

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The high‐pressure (HP) modification of CePdSn was synthesized under multianvil high‐pressure (10.5 GPa) high‐temperature (1100 °C) conditions from the normal‐pressure (NP) modification. The structures of both modifications were studied by X‐ray powder and single crystal diffraction: TiNiSi type, Pnma, a = 754.1(2), b = 470.6(1), c = 798.4(3) pm, wR2 = 0.0333, 945 F2 values, 20 variables for NP‐CePdSn and ZrNiAl type, $P{\bar 6}{\rm 2}m$, a = 760.03(5), c = 416.06(3) pm, wR2 = 0.0443, 248 F2 values, 13 variables for HP‐CePdSn. The structural chemistry of both modifications is goverened by platinum centered trigonal prisms. The platinum and tin atoms in NP‐CePdSn and HP‐CePdSn build up a three‐dimensional [PdSn] network in which the cerium atoms fill channels. Susceptibility measurements on HP‐CePdSn reveal an experimental magnetic moment of 2.55(1) μB/Ce atom in the paramagnetic region. At 5 K a paramagnetic‐to‐antiferromagnetic transition is evident from magnetization and specific heat measurements.

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Spin glass anomalies in HP-NdPtSn—structural, magnetic and specific heat studies

Heymann

Rayaprol

Riecken

et al. 2006

Solid State Sciences

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Jan F. Riecken

Trivalent‐Intermediate Valent Cerium Ordering in CeRuSn – A Static Intermediate Valent Cerium Compound with a Superstructure of the CeCoAl Type

Electronic and magnetic properties and chemical bonding ofCeMSn(M=Rh,Ru)
Matar
¹
,
Riecken
²
,
Chevalier
³

et al. 2007
Phys. Rev. B
50
4
59
2
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The High-Pressure Modification of CePtSn – Synthesis, Structure, and Magnetic Properties

Synthesis, Structure, and Properties of the High‐Pressure Modification of CePdSn – a 5 K Antiferromagnet

Spin glass anomalies in HP-NdPtSn—structural, magnetic and specific heat studies

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Jan F. Riecken

Trivalent‐Intermediate Valent Cerium Ordering in CeRuSn – A Static Intermediate Valent Cerium Compound with a Superstructure of the CeCoAl Type

Electronic and magnetic properties and chemical bonding ofCeMSn(M=Rh,Ru)Matar1, Riecken2, Chevalier3 et al. 2007Phys. Rev. B504592View full textAdd to dashboardCite

The High-Pressure Modification of CePtSn – Synthesis, Structure, and Magnetic Properties

Synthesis, Structure, and Properties of the High‐Pressure Modification of CePdSn – a 5 K Antiferromagnet

Spin glass anomalies in HP-NdPtSn—structural, magnetic and specific heat studies

Contact Info

Product

Resources

About

Electronic and magnetic properties and chemical bonding ofCeMSn(M=Rh,Ru)
Matar
¹
,
Riecken
²
,
Chevalier
³

et al. 2007
Phys. Rev. B
50
4
59
2
View full text Add to dashboard Cite