Bramnik, Kirill G. (2001)
Ternary and quaternary phases in the alkali-earth - rhenium - oxygen system.
Technische Universität Darmstadt
Dissertation, Erstveröffentlichung
Kurzbeschreibung (Abstract)
In this work crystalline phases in the system of alkali-earth elements, rhenium and oxygen have been prepared and characterised with respect to their crystal structures and magnetic properties. The results are summarised in schemes of phase stability for Ca-Re-O, Sr-Re-O and Ba-Re-O. Hereby new compounds could be established like Sr3ReO6, M11Re4O24 (M = Sr, Ba) and Sr7Re4O19 and their crystal structures were solved and refined. In the Ca-Re-O system two new compounds were synthesised and their cell parameters were defined. Two more substances in this system, Ca11Re4O24 and Ca5Re3O15, were synthesised in a pure phase polycrystalline form for the first time. Furthermore, the crystal structures of the already reported compounds could be solved, Ca11Re4O24, or had to be reconsidered, Ca5Re3O15. These results are discussed in the light of the conditions of synthesis (related to the phase stability, especially with respect to the partial oxygen pressure) and the relationships between the different crystal structures. Investigations in the Mg-Re-O system were carried out additionally. Despite of the different synthetic techniques applied no new compounds with rhenium in the low oxidation states could be prepared in this system. Furthermore, the crystal structures of the already reported M2MgReO6 (M = Ca, Sr, Ba) compounds were determined, and the cell parameters of the Ca- and Sr- containing compounds were redefined. Magnetic properties of all new compounds were investigated. In all cases an unusual temperature dependence of magnetisation was observed. The general feature of magnetic properties of all oxides studied is a weak ferromagnetism. At the same time the ordering temperature depends unambiguously on contents of the Re+6 ions in the structures. This dependence is so strong that in the case of Sr11Re4O24, where only half of the rhenium atoms have the oxidation state of +6, the ordering temperature is 12(1) K, since in the case of Sr7Re4O19, where all rhenium atoms are in +6 oxidation state, hysteresis loops were observed at 300 K and the estimated ordering temperature is about 380 K.
| Typ des Eintrags: |
Dissertation
|
| Erschienen: |
2001 |
| Autor(en): |
Bramnik, Kirill G. |
| Art des Eintrags: |
Erstveröffentlichung |
| Titel: |
Ternary and quaternary phases in the alkali-earth - rhenium - oxygen system |
| Sprache: |
Englisch |
| Referenten: |
Galy, Prof.Dr. Jean ; Ortner, Prof.Dr. Hugo Manfred |
| Berater: |
Fueß, Prof.Dr. Hartmut |
| Publikationsjahr: |
6 Oktober 2001 |
| Ort: |
Darmstadt |
| Verlag: |
Technische Universität |
|
Datum der mündlichen Prüfung: |
7 Juni 2001 |
| URL / URN: |
urn:nbn:de:tuda-tuprints-1691 |
| Kurzbeschreibung (Abstract): |
In this work crystalline phases in the system of alkali-earth elements, rhenium and oxygen have been prepared and characterised with respect to their crystal structures and magnetic properties. The results are summarised in schemes of phase stability for Ca-Re-O, Sr-Re-O and Ba-Re-O. Hereby new compounds could be established like Sr3ReO6, M11Re4O24 (M = Sr, Ba) and Sr7Re4O19 and their crystal structures were solved and refined. In the Ca-Re-O system two new compounds were synthesised and their cell parameters were defined. Two more substances in this system, Ca11Re4O24 and Ca5Re3O15, were synthesised in a pure phase polycrystalline form for the first time. Furthermore, the crystal structures of the already reported compounds could be solved, Ca11Re4O24, or had to be reconsidered, Ca5Re3O15. These results are discussed in the light of the conditions of synthesis (related to the phase stability, especially with respect to the partial oxygen pressure) and the relationships between the different crystal structures. Investigations in the Mg-Re-O system were carried out additionally. Despite of the different synthetic techniques applied no new compounds with rhenium in the low oxidation states could be prepared in this system. Furthermore, the crystal structures of the already reported M2MgReO6 (M = Ca, Sr, Ba) compounds were determined, and the cell parameters of the Ca- and Sr- containing compounds were redefined. Magnetic properties of all new compounds were investigated. In all cases an unusual temperature dependence of magnetisation was observed. The general feature of magnetic properties of all oxides studied is a weak ferromagnetism. At the same time the ordering temperature depends unambiguously on contents of the Re+6 ions in the structures. This dependence is so strong that in the case of Sr11Re4O24, where only half of the rhenium atoms have the oxidation state of +6, the ordering temperature is 12(1) K, since in the case of Sr7Re4O19, where all rhenium atoms are in +6 oxidation state, hysteresis loops were observed at 300 K and the estimated ordering temperature is about 380 K. |
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Alternatives oder übersetztes Abstract: |
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Alternatives Abstract | Sprache |
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Im Rahmen dieses Projektes wurden kristalline Phasen in den Erdalkali - Rhenium - Sauerstoff Systemen präpariert, ihre Kristallstruktur bestimmt und die magnetischen Eigenschaften ermittelt. Zur Strukturanalyse wurde Röntgen- und Neutronenbeugung an Pulvern eingesetzt. Die Ergebnisse sind in den Schemen der Phasen Stabilität für Ca - Re - O, Sr - Re - O und Ba - Re - O zusammengefasst. Hierdurch konnten neue Substanzen wie Sr3ReO6, M11Re4O24 (M = Sr, Ba) und Sr7Re4O19 hergestellt und ihre Kristallstrukturen bestimmt und verfeinert werden. In dem Ca - Re - O System wurden zwei neue Substanzen synthetisiert und ihre Gitterkonstanten wurden bestimmt. Zwei Phasen, Ca11Re4O24 und Ca5Re3O15, wurden zum ersten Mal reinphasig in polykristalliner Form in diesem System synthetisiert und deren Struktur bestimmt. Diese Ergebnisse werden entsprechend den Synthesebedingungen (bezüglich der Phasenstabilität, besonders in Hinsicht auf Sauerstoffpartialdruck) und der Verhältnisse zwischen verschiedenen Kristallstrukturen diskutiert. Untersuchungen im Mg - Re - O System wurden zusätzlich durchgeführt. Trotz verschiedener angewandten Synthesemethoden konnte keine neue Phase mit Rhenium in den niedrigen Oxidationsstufen präpariert werden. Die Kristallstrukturen der bereits berichteten M2MgReO6 (M = Ca, Sr, Ba) Phasen wurden gelöst, und die Gitterkonstaten der Ca- und Sr- erhaltenen Substanzen wurden neu bestimmt. Magnetische Eigenschaften aller neuen Substanzen sind auch untersucht worden. Eine ungewöhnliche Temperaturabhängigkeit der Magnetisierung wurde in allen Fällen beobachtet. Das gemeinsame Merkmal der magnetischen Eigenschaften aller untersuchten Oxide ist schwacher Ferromagnetismus. Die Übergangstemperatur hängt unzweideutig von der Zahl der Re+6 Ionen in der Strukturen ab. Diese Abhängigkeit ist so stark, daß im Fall von Sr11Re4O24, bei dem nur die Hälfte der Rheniumatome die Oxidationsstufe +6 hat, die Übergangstemperatur gleich 12(1) K ist, während für Sr7Re4O19, mit allen Rheniumatomen in der +6 Oxidationsstufe, Hysteresisschleifen bei 300 K beobachtet werden. Die abgeschätzte Übergangstemperatur ist etwa 380 K. | Deutsch |
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| Sachgruppe der Dewey Dezimalklassifikatin (DDC): |
500 Naturwissenschaften und Mathematik > 540 Chemie |
| Fachbereich(e)/-gebiet(e): |
11 Fachbereich Material- und Geowissenschaften |
| Hinterlegungsdatum: |
17 Okt 2008 09:21 |
| Letzte Änderung: |
26 Aug 2018 21:24 |
| PPN: |
|
| Referenten: |
Galy, Prof.Dr. Jean ; Ortner, Prof.Dr. Hugo Manfred |
|
Datum der mündlichen Prüfung / Verteidigung / mdl. Prüfung: |
7 Juni 2001 |
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