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New insights into the Glass Structure and Melt Dynamics of Ge-As-Se Alloys: Topological Phases, Eutectic Effects, Slow Homogenization of Melts and Nanoscale Phase Separation EffectsRavindren, Sriram 05 June 2015 (has links)
No description available.
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DISPOSITIFS MOLECULAIRES FONCTIONNELS A BASE ORGANOMETALLIQUEShaw-Taberlet, Jennifer 29 September 2006 (has links) (PDF)
Chapter 1.<br />1-Ethynyl-2-phenyltetramethyldisilanes HCºCSiMe2SiMe2C6H4-p-X [X = NMe2(1.1), Me (1.2), H (1.3), Br (1.4), CF3 (1.5)] are accessible from ClSiMe2SiMe2Cl, BrMgC6H4X and HCºCMgBr in a two step Grignard reaction. The crystal structure of 1.1 as determined by single crystal X-ray crystallography exhibits a nearly planar PhNMe2 moiety and an unusual gauche array of the phenyl and the acetylene group with respect to rotation around the Si-Si-bond. Full geometry optimization (B3LYP/6- 31+G**) of the gas phase structures of 1.1 and 1.3 affords minima for the gauche and the trans rotational isomers, both being very close in energy with a rotational barrier of only 3 – 5 kJ/mol. Experimental and calculated (time-dependent DFT B3LYP/TZVP) UV absorption data of 1.1 – 1.5 show pronounced electronic interactions of the HCºC- and the C6H4X p-systems with the central Si-Si bond.<br /><br />Chapter 2.<br />A family of [( 5-Cp*)Ru( 6-arene)]+ (Cp* = C5Me5) sandwich complexes of 1- and 1,4-substituted phenyl and naphthyl systems are described along with the regioselectivities of the reactions under various conditions. Finally, the (h 5-Cp*) Ru+ arenophile was found to act as a gate to the flow of electrons between para-substituted termini. When it is complexed onto the phenyl or A naphthyl ring, the gate is closed. On the contrary, when it is complexed onto the B naphthyl ring, the gate is open.<br /><br />Chapter 3.<br />Regioselective complexation reactions of the organoiron acetylide derivatives (h 2- dppe)(h 5-Cp*)Fe-C C-Ar (Ar = phenyl, 1-naphthyl; dppe = 1,2- bis(diphenylphosphino)ethane) with [(h 5-Cp*Ru(CH3CN)3][PF6] to afford heterobimetallic complexes formulated as [(h 2-dppe)(h 5-Cp*)Fe-C C-{(h 6-Ar)Ru(h 5- Cp*)}][PF6], were achieved. In the case of the FeII-RuII 1-naphthyl derivative, the (h 5-Cp*)Ru+ arenophile was complexed both onto the substituted ring and free rings of the acetylide 1-naphthyl linker. The first redox-driven h 6-h 6 inter-ring haptotropic migration of the (h 5-Cp*)Ru+ moeity was shown to occur. Crystal structures of all of the seven new iron acetylenes were resolved, including both haptotropomers of the naphthyl compound.<br /><br />Chapter 4.<br />The diorganoiron [{(h2-dpppe)(h5-Cp*)Fe-CC-}2(1,4-naphthyl)] (4.12) was synthesized in good yield in two steps via the vinylidene, and oxidation led to the mixed valence (MV) and iron(III)-iron(III) species in good to excellent yields. This exhaustive empirical study on the family of complexes 4.12[PF6]n (n = 0,1,2) includes a crystal structure for the case in which n = 2. This work clearly establishes good electronic and magnetic communication between the iron centers across the bis(ethynyl)naphthalene bridge. All empirical measurements of these naphthyl compounds reveal that their properties fall between those of known phenyl and anthracenyl derivatives. In some cases, the naphthyl derivative behaves as an average of the phenyl and anthracenyl complexes. For example, the comproportionation constant of the naphthyl species falls at the midpoint between those for the phenyl and anthracenyl compounds. The same is true for the UV absorption maxima in all three oxidation states (Fe[II]- Fe[II], MV, and Fe[III]- Fe[III]). The large electronic (2043 cm-1) and magnetic (-526 cm-1) coupling constants were determined via NIR spectroscopy and SQUID magnetometry, respectively. As for the heterotrinuclear species, the iron(II) acetylene, 4.14B[PF6] [{Cp*(dppe)Fe-C C}2-(h 6 – [1,4-napthyl])RuCp*](PF6), [Cp* = h 5 - C5Me5; Fe = FeII] was prepared in high yields with an adapted, regioselective synthesis via the trinuclear vinylidene. Complete characterization, including a crystal structure, of this sandwich complex reveals that the arenophile perturbs the organoiron ligand more in the bis(iron) than in the previously reported mono(iron) case.
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Estudo do sistema quase unidimensional AxA'1-xNb2O6 (A e A'=Ni, Fe e Co) : preparação e caracterização das propriedades e estruturas magnéticasSarvezuk, Paulo Willian Carvalho January 2011 (has links)
Cette étude expérimentale est consacrée à la structure cristalline et aux propriétés magnétiques des phases orthorhombiques ANb2O6 (A = métaux magnétiques) qui ont retenues notre attention en tant que système Ising modèle quasi 1D. Ce comportement magnétique original de basse dimension résulte à la fois de la force des interactions magnétiques le long des chaînes d'atomes magnétiques quasi-unidimensionnelles, et à la faiblesse des interactions entre les chaînes qui sont de nature antiferromagnétique. Lorsque ces composés sont ordonnés l’ensemble de ces interactions inter et intra chaîne conduit à un ordre antiferromagnétique. Notre investigation s’appuie sur une caractérisation systématique de la série de composés AxA’1-xNb2O6 (A et A’ = Ni, Fe et Co), par des mesures variées et complémentaires, notamment: diffraction des rayons X à température ambiante, diffraction de neutrons au dessus et en dessous de la température d'ordre magnétique, mesures magnétiques : évolution thermique de courbes d’aimantation isochamp et mesures d’aimantation isotherme. De plus, des mesures de la chaleur spécifique et de spectroscopie Mössbauer ont été réalisées sur certains échantillons sélectionnés. Nous avons mis à jour, selon la concentration, des comportement très différents dans les systèmes pseudo binaires Fe-Co, Ni-Fe ou Co-Ni qui peuvent soit présenter un état ordonné soit conserver un état paramagnétique jusqu'à de très basses températures. Nos mesures démontrent que la température d’ordre magnétique et les vecteurs de propagations diffèrent sensiblement selon la composition car ces systèmes sont caractérisés par une compétition entre les interactions magnétiques mises en jeu dans un réseau triangulaire interchaines. Cette étude montre que le désordre cationique Fe/Co induit une réduction substantielle des interactions tant inter que intra chaînes, ce qui traduit la tendance à défavoriser l’établissement d’un ordre magnétique à longue portée. De manière similaire, le système NixFe1-xNb2O6 ne présente pas d’ordre magnétique pour x=0,2 et ceci jusqu’à 400 mk au moins. / Este trabalho é dedicado à investigação das propriedades estruturais e magnéticas destes compostos de estrutura ortorrômbica (A = metais magnéticos) ANb2O6 que chamaram nossa atenção como um sistema de Ising quase-1D. Esse comportamento magnético original de baixa dimensionalidade é resultado das interações magnéticas ao longo das cadeias de átomos magnéticos quase uni-dimensional, e ainda pelas fracas interações antiferromagnética entre as cadeias. Quando esses compostos são ordenadas todas essas interações dentro e entre as cadeias leva a uma ordem global antiferromagnético. Nossa investigação é baseada em uma caracterização sistemática da série de compostos AxA’1-xNb2O6 (A et A’ = Ni, Fe e Co), por diferentes tipos de medidas complementares, tais como: difração de raios X à temperatura ambiente, difração de nêutrons acima e abaixo da temperatura de ordenamento magnético, medidas magnéticas: evolução térmica das curvas de magnetização e isoterma de magnetização sob variação de campo aplicado. Além disso, medidas de calor específico e espectroscopia Mössbauer foram realizadas em algumas amostras selecionadas. Nós encontramos interessantes resultados, para diferentes concentrações, com diferentes comportamentos nos sistemas pseudobinários Fe-Co, Ni-Fe ou Co-Ni, que podem permanecer no estado paramagnético até temperaturas muito baixas ou ordenarse dependendo da série analisada. Nossas medidas mostram que a temperatura de ordenamento magnético e vetores de propagação diferem substancialmente, dependendo da composição, por esses sistemas serem caracterizados por uma competição entre as interações magnéticas que estão envolvidas em uma rede triangular intermoleculares. Este estudo mostra que a desordem catiônicos Fe/Co induz uma redução substancial em ambas as interações dentro das; e entre as; cadeias, refletindo a tendência de se opor à criação de uma ordem de longo alcance magnético. Da mesma forma, o sistema NixFe1-xNb2O6 não mostra ordenamento magnético nem em medidas de até 400 mk realizadas para x = 0,2. / This work is dedicated to the investigation of structural and magnetic properties of these compounds with orthorhombic structure (A = magnetic metals) ANb2O6 that caught our attention as a system of quasi-1D Ising. This unique magnetic behavior is the result of low-dimensional magnetic interaction along the chains of magnetic atoms almost uni-dimensional, and also by weak antiferromagnetic interactions between the chains. When these compounds are ordered all these interactions between and within the chain leads to a global antiferromagnetic order. Our research is based on a systematic characterization of the series of compounds AxA'1-xNb2O6 (A et A' = Ni, Fe and Co) by differents types of complementary measures, such as X-ray diffraction at room temperature, neutron diffraction above and below the magnetic ordering temperature, magnetic measurements: thermal evolution of magnetization curves and isotherm magnetization variation in applied field. In addition, specific heat measurements and Mössbauer spectroscopy were performed on some selected samples. We found interesting results depending on the concentration, different behaviors on these pseudo binary systems Ni-Fe, Fe-Co, or Co-Ni, which can remain in the paramagnetic state up to very low temperatures or to order depending on the series analyzed. Our measurements show that the magnetic ordering temperature and propagation vectors differ substantially depending on the composition, for these systems are characterized by a competition between magnetic interactions that are involved in a triangular lattice intermolecular. This study shows that disorder cationic Fe / Co induced a substantial reduction in both the interactions within and between them; chains, reflecting the tendency to oppose the creation of a long-range magnetic order. Likewise, the system NixFe1-xNb2O6 dont shows magnetic ordering even at measures taken up to 400 mk for x = 0.2.
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Estudo do sistema quase unidimensional AxA'1-xNb2O6 (A e A'=Ni, Fe e Co) : preparação e caracterização das propriedades e estruturas magnéticasSarvezuk, Paulo Willian Carvalho January 2011 (has links)
Cette étude expérimentale est consacrée à la structure cristalline et aux propriétés magnétiques des phases orthorhombiques ANb2O6 (A = métaux magnétiques) qui ont retenues notre attention en tant que système Ising modèle quasi 1D. Ce comportement magnétique original de basse dimension résulte à la fois de la force des interactions magnétiques le long des chaînes d'atomes magnétiques quasi-unidimensionnelles, et à la faiblesse des interactions entre les chaînes qui sont de nature antiferromagnétique. Lorsque ces composés sont ordonnés l’ensemble de ces interactions inter et intra chaîne conduit à un ordre antiferromagnétique. Notre investigation s’appuie sur une caractérisation systématique de la série de composés AxA’1-xNb2O6 (A et A’ = Ni, Fe et Co), par des mesures variées et complémentaires, notamment: diffraction des rayons X à température ambiante, diffraction de neutrons au dessus et en dessous de la température d'ordre magnétique, mesures magnétiques : évolution thermique de courbes d’aimantation isochamp et mesures d’aimantation isotherme. De plus, des mesures de la chaleur spécifique et de spectroscopie Mössbauer ont été réalisées sur certains échantillons sélectionnés. Nous avons mis à jour, selon la concentration, des comportement très différents dans les systèmes pseudo binaires Fe-Co, Ni-Fe ou Co-Ni qui peuvent soit présenter un état ordonné soit conserver un état paramagnétique jusqu'à de très basses températures. Nos mesures démontrent que la température d’ordre magnétique et les vecteurs de propagations diffèrent sensiblement selon la composition car ces systèmes sont caractérisés par une compétition entre les interactions magnétiques mises en jeu dans un réseau triangulaire interchaines. Cette étude montre que le désordre cationique Fe/Co induit une réduction substantielle des interactions tant inter que intra chaînes, ce qui traduit la tendance à défavoriser l’établissement d’un ordre magnétique à longue portée. De manière similaire, le système NixFe1-xNb2O6 ne présente pas d’ordre magnétique pour x=0,2 et ceci jusqu’à 400 mk au moins. / Este trabalho é dedicado à investigação das propriedades estruturais e magnéticas destes compostos de estrutura ortorrômbica (A = metais magnéticos) ANb2O6 que chamaram nossa atenção como um sistema de Ising quase-1D. Esse comportamento magnético original de baixa dimensionalidade é resultado das interações magnéticas ao longo das cadeias de átomos magnéticos quase uni-dimensional, e ainda pelas fracas interações antiferromagnética entre as cadeias. Quando esses compostos são ordenadas todas essas interações dentro e entre as cadeias leva a uma ordem global antiferromagnético. Nossa investigação é baseada em uma caracterização sistemática da série de compostos AxA’1-xNb2O6 (A et A’ = Ni, Fe e Co), por diferentes tipos de medidas complementares, tais como: difração de raios X à temperatura ambiente, difração de nêutrons acima e abaixo da temperatura de ordenamento magnético, medidas magnéticas: evolução térmica das curvas de magnetização e isoterma de magnetização sob variação de campo aplicado. Além disso, medidas de calor específico e espectroscopia Mössbauer foram realizadas em algumas amostras selecionadas. Nós encontramos interessantes resultados, para diferentes concentrações, com diferentes comportamentos nos sistemas pseudobinários Fe-Co, Ni-Fe ou Co-Ni, que podem permanecer no estado paramagnético até temperaturas muito baixas ou ordenarse dependendo da série analisada. Nossas medidas mostram que a temperatura de ordenamento magnético e vetores de propagação diferem substancialmente, dependendo da composição, por esses sistemas serem caracterizados por uma competição entre as interações magnéticas que estão envolvidas em uma rede triangular intermoleculares. Este estudo mostra que a desordem catiônicos Fe/Co induz uma redução substancial em ambas as interações dentro das; e entre as; cadeias, refletindo a tendência de se opor à criação de uma ordem de longo alcance magnético. Da mesma forma, o sistema NixFe1-xNb2O6 não mostra ordenamento magnético nem em medidas de até 400 mk realizadas para x = 0,2. / This work is dedicated to the investigation of structural and magnetic properties of these compounds with orthorhombic structure (A = magnetic metals) ANb2O6 that caught our attention as a system of quasi-1D Ising. This unique magnetic behavior is the result of low-dimensional magnetic interaction along the chains of magnetic atoms almost uni-dimensional, and also by weak antiferromagnetic interactions between the chains. When these compounds are ordered all these interactions between and within the chain leads to a global antiferromagnetic order. Our research is based on a systematic characterization of the series of compounds AxA'1-xNb2O6 (A et A' = Ni, Fe and Co) by differents types of complementary measures, such as X-ray diffraction at room temperature, neutron diffraction above and below the magnetic ordering temperature, magnetic measurements: thermal evolution of magnetization curves and isotherm magnetization variation in applied field. In addition, specific heat measurements and Mössbauer spectroscopy were performed on some selected samples. We found interesting results depending on the concentration, different behaviors on these pseudo binary systems Ni-Fe, Fe-Co, or Co-Ni, which can remain in the paramagnetic state up to very low temperatures or to order depending on the series analyzed. Our measurements show that the magnetic ordering temperature and propagation vectors differ substantially depending on the composition, for these systems are characterized by a competition between magnetic interactions that are involved in a triangular lattice intermolecular. This study shows that disorder cationic Fe / Co induced a substantial reduction in both the interactions within and between them; chains, reflecting the tendency to oppose the creation of a long-range magnetic order. Likewise, the system NixFe1-xNb2O6 dont shows magnetic ordering even at measures taken up to 400 mk for x = 0.2.
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Estudo do sistema quase unidimensional AxA'1-xNb2O6 (A e A'=Ni, Fe e Co) : preparação e caracterização das propriedades e estruturas magnéticasSarvezuk, Paulo Willian Carvalho January 2011 (has links)
Cette étude expérimentale est consacrée à la structure cristalline et aux propriétés magnétiques des phases orthorhombiques ANb2O6 (A = métaux magnétiques) qui ont retenues notre attention en tant que système Ising modèle quasi 1D. Ce comportement magnétique original de basse dimension résulte à la fois de la force des interactions magnétiques le long des chaînes d'atomes magnétiques quasi-unidimensionnelles, et à la faiblesse des interactions entre les chaînes qui sont de nature antiferromagnétique. Lorsque ces composés sont ordonnés l’ensemble de ces interactions inter et intra chaîne conduit à un ordre antiferromagnétique. Notre investigation s’appuie sur une caractérisation systématique de la série de composés AxA’1-xNb2O6 (A et A’ = Ni, Fe et Co), par des mesures variées et complémentaires, notamment: diffraction des rayons X à température ambiante, diffraction de neutrons au dessus et en dessous de la température d'ordre magnétique, mesures magnétiques : évolution thermique de courbes d’aimantation isochamp et mesures d’aimantation isotherme. De plus, des mesures de la chaleur spécifique et de spectroscopie Mössbauer ont été réalisées sur certains échantillons sélectionnés. Nous avons mis à jour, selon la concentration, des comportement très différents dans les systèmes pseudo binaires Fe-Co, Ni-Fe ou Co-Ni qui peuvent soit présenter un état ordonné soit conserver un état paramagnétique jusqu'à de très basses températures. Nos mesures démontrent que la température d’ordre magnétique et les vecteurs de propagations diffèrent sensiblement selon la composition car ces systèmes sont caractérisés par une compétition entre les interactions magnétiques mises en jeu dans un réseau triangulaire interchaines. Cette étude montre que le désordre cationique Fe/Co induit une réduction substantielle des interactions tant inter que intra chaînes, ce qui traduit la tendance à défavoriser l’établissement d’un ordre magnétique à longue portée. De manière similaire, le système NixFe1-xNb2O6 ne présente pas d’ordre magnétique pour x=0,2 et ceci jusqu’à 400 mk au moins. / Este trabalho é dedicado à investigação das propriedades estruturais e magnéticas destes compostos de estrutura ortorrômbica (A = metais magnéticos) ANb2O6 que chamaram nossa atenção como um sistema de Ising quase-1D. Esse comportamento magnético original de baixa dimensionalidade é resultado das interações magnéticas ao longo das cadeias de átomos magnéticos quase uni-dimensional, e ainda pelas fracas interações antiferromagnética entre as cadeias. Quando esses compostos são ordenadas todas essas interações dentro e entre as cadeias leva a uma ordem global antiferromagnético. Nossa investigação é baseada em uma caracterização sistemática da série de compostos AxA’1-xNb2O6 (A et A’ = Ni, Fe e Co), por diferentes tipos de medidas complementares, tais como: difração de raios X à temperatura ambiente, difração de nêutrons acima e abaixo da temperatura de ordenamento magnético, medidas magnéticas: evolução térmica das curvas de magnetização e isoterma de magnetização sob variação de campo aplicado. Além disso, medidas de calor específico e espectroscopia Mössbauer foram realizadas em algumas amostras selecionadas. Nós encontramos interessantes resultados, para diferentes concentrações, com diferentes comportamentos nos sistemas pseudobinários Fe-Co, Ni-Fe ou Co-Ni, que podem permanecer no estado paramagnético até temperaturas muito baixas ou ordenarse dependendo da série analisada. Nossas medidas mostram que a temperatura de ordenamento magnético e vetores de propagação diferem substancialmente, dependendo da composição, por esses sistemas serem caracterizados por uma competição entre as interações magnéticas que estão envolvidas em uma rede triangular intermoleculares. Este estudo mostra que a desordem catiônicos Fe/Co induz uma redução substancial em ambas as interações dentro das; e entre as; cadeias, refletindo a tendência de se opor à criação de uma ordem de longo alcance magnético. Da mesma forma, o sistema NixFe1-xNb2O6 não mostra ordenamento magnético nem em medidas de até 400 mk realizadas para x = 0,2. / This work is dedicated to the investigation of structural and magnetic properties of these compounds with orthorhombic structure (A = magnetic metals) ANb2O6 that caught our attention as a system of quasi-1D Ising. This unique magnetic behavior is the result of low-dimensional magnetic interaction along the chains of magnetic atoms almost uni-dimensional, and also by weak antiferromagnetic interactions between the chains. When these compounds are ordered all these interactions between and within the chain leads to a global antiferromagnetic order. Our research is based on a systematic characterization of the series of compounds AxA'1-xNb2O6 (A et A' = Ni, Fe and Co) by differents types of complementary measures, such as X-ray diffraction at room temperature, neutron diffraction above and below the magnetic ordering temperature, magnetic measurements: thermal evolution of magnetization curves and isotherm magnetization variation in applied field. In addition, specific heat measurements and Mössbauer spectroscopy were performed on some selected samples. We found interesting results depending on the concentration, different behaviors on these pseudo binary systems Ni-Fe, Fe-Co, or Co-Ni, which can remain in the paramagnetic state up to very low temperatures or to order depending on the series analyzed. Our measurements show that the magnetic ordering temperature and propagation vectors differ substantially depending on the composition, for these systems are characterized by a competition between magnetic interactions that are involved in a triangular lattice intermolecular. This study shows that disorder cationic Fe / Co induced a substantial reduction in both the interactions within and between them; chains, reflecting the tendency to oppose the creation of a long-range magnetic order. Likewise, the system NixFe1-xNb2O6 dont shows magnetic ordering even at measures taken up to 400 mk for x = 0.2.
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Phase formation and structural transformation of strontium ferrite SrFeOxSchmidt, Marek, Wojciech, Marek.Schmidt@rl.ac.uk January 2001 (has links)
Non-stoichiometric strontium iron oxide is described by an abbreviated formula SrFeOx (2.5 ≤ x ≤ 3.0) exhibits a variety of interesting physical and chemical properties over a broad range of temperatures and in different
gaseous environments. The oxide contains a mixture of iron in the trivalent and the rare tetravalent state. The material at elevated temperature is a mixed oxygen conductor and it, or its derivatives,can have practical
applications in oxygen conducting devices such as pressure driven oxygen
generators, partial oxidation reactors in electrodes for solid oxide fuel cells
(SOFC).
¶
This thesis examines the behaviour of the material at ambient and elevated temperatures using a broad spectrum of solid state experimental
techniques such as: x-ray and neutron powder diffraction,thermogravimetric and calorimetric methods,scanning electron microscopy and Mossbauer
spectroscopy. Changes in the oxide were induced using conventional thermal
treatment in various atmospheres as well as mechanical energy (ball milling).
The first experimental chapter examines the formation of the ferrite from
a mixture of reactants.It describes the chemical reactions and phase transitions that lead to the formation of the oxide. Ball milling of the reactants prior to annealing was found to eliminate transient phases from the reaction route and to increase the kinetics of
the reaction at lower temperatures.
Examination of the thermodynamics of iron oxide (hematite) used for the
reactions led to a new route of synthesis of the ferrite frommagnetite and
strontium carbonate.This chapter also explores the possibility of synthesis
of the material at room temperature using ball milling.
¶
The ferrite strongly interacts with the gas phase so its behaviour was studied under different pressures of oxygen and in carbon dioxide.The changes in ferrite composition have an equilibrium character and depend on temperature and oxygen concentration in the
atmosphere. Variations of the oxygen
content x were described as a function of temperature and oxygen partial
pressure, the results were used to plot an equilibrium composition diagram.
The heat of oxidation was also measured as a function of temperature and oxygen partial pressure.
¶
Interaction of the ferrite with carbon dioxide below a critical temperature
causes decomposition of the material to strontium carbonate and SrFe12O19 .
The critical temperature depends on the partial pressure of CO2 and above
the critical temperature the carbonate and SrFe12O19 are converted back into
the ferrite.The resulting SrFe12O19 is very resistant towards carbonation and
the thermal carbonation reaction does not lead to a complete decomposition
of SrFeOx to hematite and strontium carbonate.
¶
The thermally induced oxidation and carbonation reactions cease at room
temperature due to sluggish kinetics however,they can be carried out at ambient temperature using ball milling.The reaction routes for these processes are different from the thermal routes.The mechanical oxidation induces two
or more concurrent reactions which lead to samples containing two or more
phases. The mechanical carbonation on the other hand produces an unknown
metastable iron carbonate and leads a complete decomposition of the ferrite
to strontiumcarbonate and hematite.
¶
Thermally and mechanically oxidized samples were studied using Mossbauer
spectroscopy. The author proposes a new interpretation of the Sr4Fe4O11
(x=2.75) and Sr8Fe8O23 (x=2.875)spectra.The interpretation is based
on the chemistry of the compounds and provides a simpler explanation of
the observed absorption lines.The Mossbauer results froma range of compositions
revealed the roomtemperature phase behaviour of the ferrite also
examined using x-ray diffraction.
¶
The high-temperature crystal structure of the ferrite was examined using
neutron powder diffraction.The measurements were done at temperatures
up to 1273K in argon and air atmospheres.The former atmosphere protects
Sr2Fe2O5 (x=2.5) against oxidation and the measurements in air allowed
variation of the composition of the oxide in the range 2.56 ≤ x ≤ 2.81.
Sr2Fe2O5 is an antiferromagnet and undergoes phase transitions to the paramagnetic
state at 692K and from the orthorhombic to the cubic structure
around 1140K.The oxidized formof the ferrite also undergoes a transition
to the high-temperature cubic form.The author proposes a new structural
model for the cubic phase based on a unit cell with the Fm3c symmetry.
The new model allows a description of the high-temperature cubic form of
the ferrite as a solid solution of the composition end members.The results
were used to draw a phase diagramfor the SrFeOx system.
¶
The last chapter summarizes the findings and suggests directions for further research.
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