C. Steudtner scite author profile

C. Steudtner

5Publications

8Citation Statements Received

2Citation Statements Given

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University of Tübingen

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Praseodymium Zircon Yellow

Stiebler

Steudtner

Kemmler‐Sack

1992

Phys. Stat. Sol. (a)

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The properties of praseodymium zircon yellow and of corresponding samples with a nominal substitution of Ce4+ for Zr4+ as well as Ti4+ for Si4+ (system ZrSiO,: Pr,Ce,Ti,) are investigated by X-ray methods, diffuse reflectance, and vibrational spectroscopy. From the present results follows that the ZrSiO, structure does not tolerate a significant substitution level on either Zr4+ or Si4+ regular lattice positions by the larger foreign ions Ce4+, Pr4+, and Ti4+. Thus, the yellow colour is the result of the usual colour-centre formation, charge compensated by Pr3 + ; whereas the highly forbidden 4f -+. 4f transitions of Pr3+ are practically without influence on the coloration. Die Eigenschaften von Zirkon-Praseodym-Gelb sowie von entsprechenden Proben mit einer nominellenSubstitution von Ce4+ fur Zr4+ bzw. Ti4+ fur Si4+ (System ZrSiO,: Pr,Ce,Ti,) werden mit rontgenographischen Methoden sowie durch diffuse Reflexionsspektroskopie und Schwingungsspektroskopie untersucht. Die erzielten Ergebnisse zeigen, daB die Zirkon-Struktur weder einen bedeutenden Substitutionsgrad auf regullren Zr4+-noch auf Si4+-P1atzen durch die groBeren Ionen Ce4+, Pr4+ oder Ti4+ zulal3t. Daher ist die gelbe Farbe das Resultat einer gewohnlichen Farbzentren-Bildung, der Ladungsausgleich erfolgt durch Pr3 +. Dagegen uben die stark verbotenen 4f + 4f-Ubergange von Pr3 + praktisch keinen EinfluR auf die Farbung aus.

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New phases in the SrO–La2O3 –TiO2–CuO system with the K2NiF4 structure

Steudtner¹,

Morán²,

Alario-Franco³

et al. 1997

J. Mater. Chem.

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Quasi-reversible transformations and thermal stability of BiPbSr2−xCaxFeO6+z with x = 0 and 1

Filoti

Spänu

Rosenberg

et al. 1994

Journal of Alloys and Compounds

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Substitution and properties of Bi/Pb-based ferrates of 3212-type

Steudtner

Fries

Kemmler‐Sack

et al. 1994

Phys. Stat. Sol. (a)

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Pb- and Bi-Based Ferrates of Type 2212

Fries¹,

Steudtner²,

Schlichenmaier

et al. 1994

Journal of Solid State Chemistry

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C. Steudtner

Praseodymium Zircon Yellow

New phases in the SrO–La2O3 –TiO2–CuO system with the K2NiF4 structure

Quasi-reversible transformations and thermal stability of BiPbSr2−xCaxFeO6+z with x = 0 and 1

Substitution and properties of Bi/Pb-based ferrates of 3212-type

Pb- and Bi-Based Ferrates of Type 2212

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