NIEHAUS, Oliver; ABDALA PAULA, M.; RIECKEN, Jan F.; WINTER, Florian; CHEVALIER, Bernard; PÖTTGEN, Rainer

doi:10.5560/ZNB.2013-3176

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NIEHAUS, Oliver
Institut für Anorganische und Analytische Chemie

ABDALA PAULA, M.
European Synchrotron Radiation Facility [ESRF]

RIECKEN, Jan F.
Institut für Anorganische und Analytische Chemie

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Zeitschrift fur Naturforschung B. 2013, vol. 68, n° 9, p. 960-970

Verlag der Zeitschrift Fuer Naturforschung

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The solid solutions Ce(Rh1−xRux)Sn were investigated by means of susceptibility measurements, specific heat, electrical resistivity, X-ray absorption spectroscopy (XAS), and 119Sn Mössbauer spectroscopy. Magnetic measurements as well as XAS data show a cerium valence change in dependence on the ruthenium content. Higher ruthenium content causes an increase from 3.22 to 3.45 at 300 K. Furthermore χ and χ−1 data indicate valence fluctuation for cerium as a function of temperature. For example, Ce(Rh0.8Ru0.2)Sn exhibits valence fluctuations between 3.42 and 3.32 in the temperature range of 10 to 300 K. This could be proven by using the interconfiguration fluctuation (ICF) model introduced by Sales and Wohlleben. Cerium valence change does not influence the tin atoms as proven by 119Sn Mössbauer spectroscopy, but it influences the electrical properties. Ce(Rh0.9Ru0.1)Sn behaves like a typical valence fluctuating compound, and higher ruthenium content causes an increase of the metallic behavior.Read less <

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Cerium

Intermediate

Valence

Magnetic Properties

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Cerium valence change in the solid solutions Ce(Rh1−xRux)Sn

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