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Contribution à l'étude de la conductivité optique du système Pr(1-x)Ca(x)MnO(3)Sopracase, Rodolphe 28 November 2005 (has links) (PDF)
Ce travail est une contribution à l'étude des excitations de basse énergie des manganites Pr(1-x)Ca(x)MnO(3) (0 ≤ x ≤ 1) par la mesure de la réflectivité entre 0.01 et 2.2 eV en fonction de la température de 4 à 300 K. Les propriétés de ces systèmes d'électrons fortement corrélés sont gouvernées par des interactions en compétition qui induisent un diagramme de phase riche et complexe.<br />Nous interprétons quantitativement la forme et l'évolution des spectres de conductivité optique tirés de la réflectivité, en fonction de (x,T) en utilisant un modèle minimal constitué de deux excitations polaroniques et interbandes dues à l'effet Jahn - Teller. Dans les phases FI et AFI-A, nous relions l'évolution en température du poids spectral de l'excitation JT à l'aimantation par un modèle de double échange. Dans les composés à ordre de charge, nous observons dessous de TCO une augmentation des énergies des transitions optiques que nous attribuons à un renforcement progressif du couplage électron – phonon.
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Plonųjų manganitų sluoksnių tyrimas stipriuose impulsiniuose elektriniuose ir magnetiniuose laukuose / Investigation of thin manganite films at strong pulsed electric and magnetic fieldsCimmperman, Piotras 03 October 2006 (has links)
The main aim of this work was to investigate electrical conductivity of La-Ca(Sr)-MnO thin films at high pulsed electric and magnetic fields and to clear up the possibilities to use these materials for high pulsed magnetic field sensor and fault current limiter applications.
The dissertation consists of the preface, six chapters, summary and main conclusions, references, list of publications and abstract (in Lithuanian).
The main objectives of the work, scientific novelty, goals, validation of results, and statements for defense are presented in the preface.
Chapter 1 presents an introduction and review of previous works on electroresistance (ER) and magnetoresistance (MR) phenomena in manganites.
Chapter 2 presents a description of two deposition techniques which were used for preparation of thin manganite films: metal organic chemical vapour deposition (MOCVD) and pulsed laser deposition (PLD).
Measurement equipment and methods are described in Chapter 3. The resistance dependence on voltage was investigated using electric pulses with duration of 5–30 ns and amplitude up to 1000 V in the temperature range of 4.2–300 K. For magnetoresistance measurements a pulsed magnetic field generator, which generates magnetic field pulses of 0.6–2 ms duration with amplitude up to 50 T was used.
Chapter 4 presents an investigation of surface morphology of prepared films and a characterization of their properties at low electric and magnetic fields. The electric and magnetic properties... [to full text]
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Plonųjų manganitų sluoksnių tyrimas stipriuose impulsiniuose elektriniuose ir magnetiniuose laukuose / Investigation of thin manganite films at strong pulsed electric and magnetic fieldsCimmperman, Piotras 04 October 2006 (has links)
The main aim of this work was to investigate electrical conductivity of La-Ca(Sr)-MnO thin films at high pulsed electric and magnetic fields and to clear up the possibilities to use these materials for high pulsed magnetic field sensor and fault current limiter applications.
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The Investigation of Electromagnetic Processes in Electromagnetic Launchers Using Colossal Magnetoresistance Sensors / Elektromagnetinių procesų tyrimas elektromagnetinėse svaidyklėse naudojant milžiniškos magnetovaržos jutikliusLiebfried, Oliver 15 June 2011 (has links)
The development of rails and armatures which ensure a sliding solid-to-solid contact during the whole projectile acceleration is a great challenge in the field of railgun technology. Multifaceted physics exists at the sliding contact interface: The current concentrates at the rear of the interface due to magnetic diffusion processes and the fast armature movement. Consequently, Joule heating leads to enhanced wear in this region. In this dissertation, magnetic diffusion in railguns is investigated by means of measuring magnetic fields with CMR-B-scalar sensors at static and dynamic experimental conditions. These novel sensors, based on La0.83Sr0.17MnO3 thin films exhibiting colossal magnetoresistance were adapted for the use at railguns. It was found that these sensors are effective tools to measure the magnitude of high pulsed magnetic fields independent of the field orientation. Magnetic field distributions influenced by proximity and velocity skin effect could be measured in the harsh railgun environment. The obtained results allowed to estimate the skin depth in the rails at the sliding interface of a fast moving armature (>1500m/s). Furthermore experiments with fixed multiple brush armatures showed that front brushes can have contact problems in case of missing contact pressure. / Pagrindiniai bėgių tipo elektromagnetinių svaidyklių technologijos uždaviniai yra susiję su daugybe fizikinių reikinių, vykstančių sviedinio kontaktų sąlyčio su bėgiais riboje. Todėl elektromagnetinių procesų, atsirandančių dėl didelių elektros srovės tankių ir slydimo greičių tyrimas yra svarbus šios srities uždavinys. Dėl magnetinės difuzijos ir greito sviedinio judėjimo, srovė koncentruojasi galinėje kontakto dalyje, kuri dėl stipraus Joule šilimo greitai susidėvi, o tai apriboja svaidyklės efektyvumą. Disertacijoje pateikiami magnetinio lauko difuzijos tyrimai bėgių tipo svaidyklėse panaudojant specialius jutiklius magnetinių laukų matavimui. Šie nauji jutikliai, pagaminti iš plonų La0,83Sr0,17MnO3 sluoksnių, pasižyminčių milžiniškos magnetovaržos (MM) reiškiniu (MM-B-skaliariniai jutikliai), buvo pritaikyti svaidyklėse, veikiančiose statiniame ir dinaminiame režime, esant dideliems elektromagnetinių triukšmų lygiams ir mechaniniams įtempiams. Darbo metu buvo nustatyta, jog šiais jutikliais galima išmatuoti stipraus magnetinio lauko impulso amplitudę, kai nėra žinoma šių laukų kryptis. Buvo ištirti nevienalyčių magnetinių laukų pasiskirstymai bėgiuose, atsirandantys dėl artumo efekto bei greičio skinefekto, sviediniui judant greičiau nei 1500m/s. Bandymai su įtvirtintu daugelio šepetėlių konstrukcijos sviediniu parodė, kad priekiniai šepetėliai, dėl nepakankamo Lorenco jėgos sukuriamo slėgio, gali pararasti elektrinį kontaktą su bėgiais.
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Fabrication et caractérisation électrique et thermique de microbolomètres non refroidis suspendus à base de couches minces La0,7Sr0,3MnO3 sur siliciumLiu, Shuang 08 March 2013 (has links) (PDF)
Ce travail propose une nouvelle voie de conception de micro-bolomètres non-refroidis, qui exploite la variation de résistance électrique avec la température au voisinage de 300 K de couches minces La0,7Sr0,3MnO3 déposées sur substrat de silicium. Un procédé de fabrication utilisant le micro-usinage du silicium a été optimisé afin de réduire la conductance thermique liant la couche mince au substrat. Nous avons vérifié que les propriétés électriques (résistivité électrique et bruit à basse fréquence) du La0,7Sr0,3MnO3 ne sont pas dégradées sur des ponts suspendus de largeur 2 ou 4 µm et de longueur 50 à 200 µm. La conductance thermique mesurée est bien décrite par un modèle analytique simple. L'isolation thermique du détecteur est réduite de 5 ordres de grandeur, augmentant d'autant la sensibilité des bolomètres. La détectivité spécifique dans la bande passante estimée à partir des mesures est égale à 1,1×1010 cm.Hz-1/2.W-1 à 1,5 µm et à 300 K, ce qui très proche de la limite théorique pour des détecteurs thermiques à 300 K (1,8×1010 cm.Hz-1/2.W-1). Nos détecteurs de rayonnement, dont les performances sont limités par le bruit de phonons, présentent des constantes de temps de réponse faible (<1 ms). Ils pourraient trouver préférentiellement des applications dans lesquelles un petit nombre de détecteurs et où une grande détectivité spécifique (ou une petite constante de temps de réponse) sont nécessaires. C'est par exemple le cas des applications pour la spectrométrie infrarouge ou des détecteurs de gaz de type non dispersif. Associés à des antennes, nos bolomètres pourraient également trouver des applications en détection THz.
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Síntese e caracterização de compostos HoMn1-x(Ni,Co)xO3Santos, Cássio Morilla dos [UNESP] 11 March 2011 (has links) (PDF)
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santos_cm_dr_bauru.pdf: 6826027 bytes, checksum: 1ad686f4be17bb277f0631a83afd94f0 (MD5) / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / Nesse trabalho foi realizado o processo de síntese, e a caracterização estrutural e magnética de compostos HoMn1-x(Ni, Co)xO3 de estrutura perovskita. As sínteses das amostras foram realizadas por meio do método dos precursores poliméricos modificado. Após a síntese e a remoção do solvente, a resina polimérica formada foi tratada em 350ºC/4h para a remoção dos constituintes orgânicos, seguida de tratamentos térmicos em 500ºC/4h e 900ºC/20h para obtenção da fase cristalina. Para a caracterização estrutural foi utilizada a linha D10B-XPD do Laboratório Naiconal de Luz Síncrotron (LNLS), onde comprimentos de onda de raios X abaixo da borda de absorção do cobalto, do maganês e do níquel, foram utilizados. A formação das fases HoNi0.50Mn0.50O3, HoCo0.50O3 e HoNi0.25Co0.25Mn0.50O3, foram observadas pelas técnica da difração de raios X. Com o método de refinamento Reitveld para a amostra HoNi0.25Co0.25Mn0.50O3, foi determinado que o cobalto e o níquel apresentaram ocupações similares, no topo e na base da cela unitária, enquanto que o manganês ocupou preferencialmente o plano 002. A resposta magnética das amostras foi estudada através de curvas de magnetização em função da temperatura, e do campo magnético aplicado. As curvas ZFC demonstraram uma resposta paramagnética associada ao momento magnético do hólmio, além da coexistência de ferromagnetismo, antiferromagnetismos e ferrimagnetismo, devido às sub-redes formadas pelos metais de transição. As curvas FC evidenciaram o fenômeno da inversão de spin, associado à interação entre as sub-redes formadas pelos metais de transição com a sub-rede formada pela terra-rara, considerando um mecanismo de interação de troca antiferromagnética / In this work was accomplished the syntheis process and structural and magnetic characterization of HoMn1-x(NiCo)xO3 compounds of pervskites structure. The sample synthesis were performed through modified polymeric precursos method. After synthesis and solvent removal, the polymer resin formed was treated at 350ºC/4h for organic constituents removal, followed by heating treatment at 500ºC/4h and 900ºC/20h to obtain the crystalline phase. For structural characterization, it was used D10B-XPD beam line of Laboratório Nacional de Luz Síncrotron (LNLS), where X-rays wavelengths below cobalt, manganeses and nickel absorption edge, were used. The formation of HoNi0.50Mn0.50O3, HoCo0.50O3 e HoNi0.25Co0.25Mn0.50O3 phases were observed by X-ray diffraction technique. By Rietveld refinement method for sample HoNi0.25Co0.25Mn0.50O3, it was determined that cobalt and nickel had similar occupations at the top and bottom of unit cell, while the manganeses preferentially occupied plan 002. The magnetic response of samples was studied through magnetization curves according to the temperature function and the applied magnetic field. The ZFC curves showed a paramagnetic response associated to holmium magnetic moment, and ferromagnetism, antiferromagnetism and ferrimagnetism coexistence, due to sublattices formed by transition metals. The FC curves evidenced the spin reversal phenomenon, associated to the interaction between the sublattice formed bu transition metals with sublattices formed by rare-earth, considering a mechanism of antiferromagnetic exchange interaction
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Síntese e caracterização de compostos HoMn1-x(Ni,Co)xO3 /Santos, Cássio Morilla dos. January 2011 (has links)
Orientador: Paulo Noronha Lisboa-Filho / Banca: Fabio Furlan Ferreira / Banca: Manuel Henrique Lente / Banca: André Maurício Brinatti / Banca: Guinther Kellermann / O Programa de Pós graduação em Ciência e Tecnologia de Materiais, PosMat, tem carater institucional e integra as atividades de pesquisa em materiais de diversos campi da UNESP / Resumo: Nesse trabalho foi realizado o processo de síntese, e a caracterização estrutural e magnética de compostos HoMn1-x(Ni, Co)xO3 de estrutura perovskita. As sínteses das amostras foram realizadas por meio do método dos precursores poliméricos modificado. Após a síntese e a remoção do solvente, a resina polimérica formada foi tratada em 350ºC/4h para a remoção dos constituintes orgânicos, seguida de tratamentos térmicos em 500ºC/4h e 900ºC/20h para obtenção da fase cristalina. Para a caracterização estrutural foi utilizada a linha D10B-XPD do Laboratório Naiconal de Luz Síncrotron (LNLS), onde comprimentos de onda de raios X abaixo da borda de absorção do cobalto, do maganês e do níquel, foram utilizados. A formação das fases HoNi0.50Mn0.50O3, HoCo0.50O3 e HoNi0.25Co0.25Mn0.50O3, foram observadas pelas técnica da difração de raios X. Com o método de refinamento Reitveld para a amostra HoNi0.25Co0.25Mn0.50O3, foi determinado que o cobalto e o níquel apresentaram ocupações similares, no topo e na base da cela unitária, enquanto que o manganês ocupou preferencialmente o plano 002. A resposta magnética das amostras foi estudada através de curvas de magnetização em função da temperatura, e do campo magnético aplicado. As curvas ZFC demonstraram uma resposta paramagnética associada ao momento magnético do hólmio, além da coexistência de ferromagnetismo, antiferromagnetismos e ferrimagnetismo, devido às sub-redes formadas pelos metais de transição. As curvas FC evidenciaram o fenômeno da inversão de spin, associado à interação entre as sub-redes formadas pelos metais de transição com a sub-rede formada pela terra-rara, considerando um mecanismo de interação de troca antiferromagnética / Abstract: In this work was accomplished the syntheis process and structural and magnetic characterization of HoMn1-x(NiCo)xO3 compounds of pervskites structure. The sample synthesis were performed through modified polymeric precursos method. After synthesis and solvent removal, the polymer resin formed was treated at 350ºC/4h for organic constituents removal, followed by heating treatment at 500ºC/4h and 900ºC/20h to obtain the crystalline phase. For structural characterization, it was used D10B-XPD beam line of Laboratório Nacional de Luz Síncrotron (LNLS), where X-rays wavelengths below cobalt, manganeses and nickel absorption edge, were used. The formation of HoNi0.50Mn0.50O3, HoCo0.50O3 e HoNi0.25Co0.25Mn0.50O3 phases were observed by X-ray diffraction technique. By Rietveld refinement method for sample HoNi0.25Co0.25Mn0.50O3, it was determined that cobalt and nickel had similar occupations at the top and bottom of unit cell, while the manganeses preferentially occupied plan 002. The magnetic response of samples was studied through magnetization curves according to the temperature function and the applied magnetic field. The ZFC curves showed a paramagnetic response associated to holmium magnetic moment, and ferromagnetism, antiferromagnetism and ferrimagnetism coexistence, due to sublattices formed by transition metals. The FC curves evidenced the spin reversal phenomenon, associated to the interaction between the sublattice formed bu transition metals with sublattices formed by rare-earth, considering a mechanism of antiferromagnetic exchange interaction / Doutor
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Modeling of glyphosate and metal-glyphosate speciation in solution and at solution-mineral interfacesJonsson, Caroline January 2007 (has links)
Glyphosate (N-(phosphonomethyl)glycine, PMG, H3L) is a widely used organophosphorous herbicide. It interacts with metal ions and mineral surfaces, which may affect its mobility, degradation and bioavailability in the environment. However, these interactions are far from fully understood. This thesis is a summary of five papers discussing the complexation of PMG with metal ions in aqueous solution and the adsorption of PMG and/or Cd(II) on different mineral surfaces. The complexation of PMG with the metals Cd(II) or Al(III) in aqueous solution was investigated with macroscopic and molecular scale techniques. Potentiometric titration data were combined with EXAFS, ATR-FTIR and NMR spectroscopic data to generate solution equilibrium models. In the PMG-Cd(II) system, only mononuclear complexes were formed, while both mono and binuclear complexes were observed in the PMG-Al(III) system. EXAFS, ATR-FTIR, and XPS measurements showed that PMG adsorbs to the surfaces of goethite (α-FeOOH), aged γ-alumina (γ-Al2O3) and manganite (γ-MnOOH) through one oxygen of its phosphonate group to singly-coordinated surface sites. Surface complexation models consistent with these spectroscopic results were fit to adsorption data using the 1pK reaction formalism. Electrostatic effects were accounted using either the Extended Constant Capacitance Model (ECCM) or the Basic Stern Model (BSM), and the charge of the surface complexes was distributed over the different planes. The formation of the surface complexes was described according to the following reactions: ≡MeOH(0.5-) + H3L <=> ≡MeHL(1.5-) + H2O + H+ ≡MeOH(0.5-) + H3L <=> ≡MeL(2.5-) + H2O + 2H+ The coadsorption of PMG and Cd(II) on the surfaces of goethite and manganite results in the formation of ternary mineral-PMG-Cd(II) surface complexes, as suggested from EXAFS results. Previous EXAFS measurements have also established the coordination geometries for the binary goethite-Cd(II) and manganite-Cd(II) surface complexes. In addition to the surface reactions in the binary mineral-Cd(II) and mineral-PMG systems, a single ternary complex with the stoichiometry ≡MeLCd(OH)(1.5-) was sufficient to explain coadsorption data: ≡MeOH(0.5-) + H3L + Cd2+ <=> ≡MeLCd(OH)(1.5-) + 3H+ It was concluded that the affinity of PMG for the three mineral systems decreases within the series: goethite > aged γ-Al2O3 > manganite. The formation of the ternary surface complex is more significant on goethite surfaces than on manganite surfaces.
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Développement du procédé de chauffage micro-ondes en vue de l'élaboration de céramiques à propriétés électriques particulières.Grossin, David 26 October 2006 (has links) (PDF)
Ce travail a été consacré au développement du procédé de chauffage micro-ondes en vue de l'élaboration de céramiques à propriétés électriques particulières. L'objectif, est de valoriser ce procédé de chauffage à travers l'élaboration de céramiques fonctionnelles. Le manuscrit présente des travaux pouvant être découpe en deux parties :<br />- Une première partie aborde l'élaboration par chauffage micro-ondes d'oxydes réfractaires dans une cavité résonante rectangulaire TE102. La synthèse par chauffage micro-ondes direct de la phase La0.8Sr0.2MnO3 (LSMO) envisagée initialement n'est pas satisfaisante, un chauffage indirect est alors mis en place. Ce nouveau procédé a permis de synthétiser et de fritter avec succès en mode statique et en continu de longs barreaux de LSMO sans altérer les propriétés remarquables du matériau à magnétorésistance colossale. L'utilisation de ce procédé pour fritter également un matériau isolant BaZrO3 a conduit à une réussite. <br />- Une seconde partie est consacrée à la texturation de YBa2Cu3OΔ par procédé micro-ondes de fusion de zone. L'objectif est d'améliorer les propriétés supraconductrices en contrôlant l'orientation cristallographique. Ainsi deux procédés ont été développés. Le premier qui consiste à substituer partiellement l'Yttrium par du Calcium a permis une réelle optimisation de l'orientation et ouvre de nouvelles perspectives. Le second combine la fusion de zone avec la croissance assistée par germe. Les échantillons élaborés par cette méthode possèdent des propriétés supraconductrices satisfaisantes. Ils ont été caractérisés par des méthodes d'analyses de texture comme : l'EBSD, DRX, neutron.
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Perovskite Related Oxides: Development Of New Synthetic Methods, Materials And PropertiesMandal, Tapas Kumar 09 1900 (has links)
Oxides of ABO3 composition (A = alkali, alkaline earth or rare earth metal in general, B = transition metal) constitute a large family of metal oxides of current interest to solid state and materials chemistry. Among the several structure types exhibited by ABO3 oxides (ilmenite, LiNbO3, perovskite, YAIO3/YMnO3, KSbO3, pyrochlore, among others), the perovskite structure is probably the most well known and widely investigated. The ideal perovskite structure consists of a three-dimensional (3D) framework of corner-sharing BO6 octahedra in which the A cation resides in the dodecahedral site surrounded by twelve oxide ions. The ideal cubic structure occurs when the Gold Schmidt’s tolerance factor, t = (rA + ro)/{V2 (rB + ro)}, adopts a value of unity and the A-O and B-O bond distances are perfectly matched. The flexibility of the perovskite structure towards a wide variety of substitutions at both A and B sites gives rise to a very large number (several hundreds) of perovskite derivatives with subtle variations in structure. The perovskite structure can also tolerate vacancies at both the A and O sites giving ordered superstructures. Members of y4BO3 oxides have numerous properties that find technological application, such as nonlinear optical response (LiNbO3), Ferro electricity (BaTiO3), piezoelectricity (PbZn_xTixO3), magneto ferroelectricity (YMnO3), superconductivity (Bai_xKxBi03)5 colossal magnetoresistance (La^xCaxMnO3) and ionic conductivity [(Lil_a)TiO3]
Ordering of cations at the A and B sites of the perovskite structure is an important phenomenon. Ordering of B site cations in double (/42BB'O6) and multiple (/43BB'2Og) perovskites gives rise to newer and interesting materials properties For example, 1*1 ordered Sr2FeMoO6 and Sr2FeReO6 are half-metallic ferrimagnets; Pb3MgNb2O9 is a relaxor ferroelectric; Ba3ZnTa2O9 is a low loss dielectric used in telecommunication and, last but not least, Ba3CoNb2O9 is a visible light driven photocatalyst. Realization of these properties in these materials depends crucially on the ordering/or otherwise of the B site cat ions in the perovskite structure. Furthermore, ordering of not only the metal atoms but also the oxygen/oxygen vacancies in the perovskite structure is equally important for the occurrence of superconductivity in the cuprate superconductor, YBa2Cu3O7.
The ideal perovskite structure gives way to hexagonal YMnO3/YAIO3 structure for smaller A cations (tolerance factor, t < 1). Oxides of this structure are attracting current attention for the realization of multiple magnetoferroic properties. On the other hand, for larger A cations (tolerance factor, t > 1), various perovskite polytypic structures are formed. For example, BaNiO3 forms a 2H polytypic structure, SrMnO3 and BaRuO3 adopts a 4H and 9R structures respectively, where the SO6 octahedra share faces or faces and corners.
Besides the foregoing 3D perovskites, a number of layered variants of the perovskite structure are also known. The most common layered perovskites are the Aurivillius phases, (Bi2O2)[A»-iBnO3n+iL the Ruddlesden-Popper phases, /4'2|7ln_iBnO3n+1], and the Dion-Jacobson phases, A[An^BnOzn+-\]' The two-dimensional (2D) perovskite unit, [^n-iBnOsn+i], which could be visualized as formed by slicing the 3D perovskite structure along <001>p is common for all the three layered perovskite series. The perovskite slabs are stacked alternately with various charge-balancing units, for example, with [Bi2O2]2+ in the Aurivillius phases and two alkali/alkaline earth cations (A+JA2+) in the Ruddlesden-Popper phases etc. Members of the layered perovskites are also important from the point of view of materials properties. For example, 2D magnetism (K2NiF4), superconductivity (La2-xSrxCuO4), ion exchange, Bronsted acidity, intercalation, exfoliation (K2La2Ti3Oio and CsCa2Nb3O10), photo catalysis (Rb2La2Ti30io) are some of the important materials properties found in layered perovskites. The high Tc-superconductors, Bi2Sr2CaCu2O8+XJ TI2Ba2Ca2Cu3Oi0, TIBa2Ca2Cu3O9 and HgBa2Ca2Cu3O8+x, also belong to the family of layered perovskites where the defective perovskite cuprate sheets are interleaved by other 2D entities like (Bi2O2), (TI2O2), (TIO) or (HgOx). In addition, Aurivillius phases, such as Bi2SrTa209 and Bi325Lao75Ti3Oi2, in thin film geometry are candidate materials for non-volatile ferroelectric memory devices.
Synthesis plays a key role in realizing new structures and materials properties for ABO3 oxides. The conventional synthetic methods (ceramic method) involve mixing and heating of solid reactants at elevated temperatures. Although this approach continues to be employed to synthesize new materials, it is often limited by the fact that it yields thermodynamically stable phases. Since many of the perovskite oxides showing useful materials properties are metastable in nature and are required in the form of fine particles (free-standing / monodisperse / submicron or nanometer dimensions) for application, the ceramic methods are of no avail for this purpose. Therefore, materials chemists constantly endeavor to develop alternate synthetic routes that enable them to synthesize novel oxides under mild conditions. Typical examples of metastable perovskites are: the super conducting cuprates (e.g. TlosPbosS^CaC^Og) and perovskite based lithium ion conductors (La2/3-xLi3XDi/3-2xTiO3). Also the control of oxidation states in double perovskites, such as Sr2FeMoO6 and Sr2FeRe06 and pyrochlores such as Pb2MnReC>6, cannot be achieved by conventional means. Therefore, the synthesis of such metastable phases requires special synthetic strategies that involve soft chemistry (chimie douce) methods where mild reactions/reaction conditions are employed to access metastable phases.
The present thesis is mainly devoted to an investigation of perovskite related oxides towards developing new synthetic strategies and materials as well as exploring hydrogen insertion - a novel materials property - in certain members of this family. Solid-state metathesis (SSM) reactions provide a convenient route for the synthesis of a wide variety of non-oxide ceramic materials such as, bondes, carbides, silicides, pnictides and chalcogenides. A typical metathesis reaction, for example,
M0CI5 + 5/2 Na2S -» MoS2 + 5 NaCI + 1/2 S (1) involves exchange of atoms/ions between the reactants and is accompanied by a large enthalpy change (AHm = - 890 kJ mol"1) and high adiabatic reaction temperature (Tm = 1413 °C). The reactions are often self-propagating and believed to be driven by the formation of stable salt byproducts such as alkali halides with high lattice energy. In our laboratory we have developed a different kind of metathesis reaction for the synthesis of perovskite related oxides, a typical example being,
K2La2Ti30io + 2 BiOCI -* [Bi2O2]La2Ti3O10 + 2 KCI.
A major difference between metathesis reactions (1) and (2) is that unlike (1), reaction (2) is not self-propagating, requiring longer duration. In this study, we have investigated metathesis reactions of the second kind at some length for the synthesis of perovskite related oxides. We found that rocksalt oxides such as UMO2 (M = Mn, Co) and Li2TiO3 constitute convenient precursors for the formation of v4BO3 perovskite oxides in metathesis reactions with appropriate reaction partners such as halides, oxyhalides or sulphates,
LiCoO2 + LaOCl -» LaCoO3 + LiCt (3)
LiMnO2 + LaOCl + x/2 O2 -> LaMnO3+x + LiCI (4)
Li2TiO3 + PbSO4 -» PbTiO3 + Li2SO4. (5)
We could synthesize not only well known ABO3 oxides but also functional perovskites such as PbZr0 4sTio 52O3 (PZT), La2/3Cai/3MnO3 as well as superconducting BaPbo75Bio2s03 by this method. We could also synthesize La2CuO4 and its superconducting analogues, La185^oi5Cu04 (A = Sr, Ba), by the same method using Li2CuO2 and LaOCl. For the synthesis of double perovskites A2BB%OQ by this method however, appropriate lithium containing rocksalt precursor oxides are not known in the literature. Therefore, we first synthesized rocksalt precursor oxides of the general formula Li4MWO6 (M = Mg, Mn, Fe, Ni) and established their identity. Using these precursor oxides, we could synthesize the double perovskite oxides Sr2MWO6 (M = Mg, Mn, Fe, Ni) in the metathesis reaction
Li4MWO6 + 2 SrCI2 -» Sr2MWO6 + 4 LiC
Significantly, the double perovskites are formed with an ordered structure at relatively low temperatures (750 - 800 °C) as compared to the high temperatures (up to 1400 °C) usually employed for the synthesis of these materials by conventional ceramic approach.
Next, we investigated ABO$ compositions corresponding to the formula for 6 = Cu and Ni, where we could obtain a YAIO3 superstructure consisting of triangular Cu clusters for 6 = Cu, whereas a perovskite phase for B = Ni. Moreover, the Cu-phase appears to be a unique line phase formed around LasCi^VOg composition, whereas a continuous series of GdFeO3-like perovskite oxides are formed for LaNii»xVxO3 (0 < x < 1/3)forS = Ni.
Considering the current interest in bringing different transition metal ions (d°/dn electronic configuration) in the same perovskite related structure towards developing multiferroic materials, we investigated the substitution of aliovalent cations in a typical Aurivillius phase, Bi2Sr2Nb2TiOi2. We have characterized new aliovalent cation substituted Aurivillius phases, Bi2SrNaNb2TaOi2, Bi2Sr2Nb2Zr012J Bi2Sr2Nb2 5Feo50i2 and Bi2Sr2Nb2 ezZno 33O12.
Lastly, we investigated the interaction of hydrogen with perovskite oxides, /\MnO3 (A = Ca, Sr, Ba) in an attempt to characterize possible existence of hydrogen-inserted oxide materials. An oxide-hydride of the formula LaSrCoO3H07 has recently been reported in the literature. Conventionally, the interaction of hydrogen with perovskite related oxides is known to result in either anion deficient phases (e.g. CaMnO3 -> Ca2Mn205), or hydrogen inserted materials, 'hydrogen bronzes', (e. g. HXWO3, HxBaRuO3), where hydrogen acts as an electron donor (H -^ H+ + e). We have characterized a new mode of hydrogen incorporation in Pt dispersed BaMnO3 and SrMnO3. Detailed investigation of the hydrogen sorption behaviour of 1 atom % Pt dispersed materials showed that about 1.25 mass % of hydrogen is inserted per mole of BaMnO3/Pt, corresponding to an insertion of - 3 hydrogen atoms giving 'BaMnOsHs'. While the exact nature of inserted hydrogen is yet to be established unambiguously, our results suggest that the inserted hydrogen is unlikely to be protonic (H+) in the hydrogen insertion product, BaMnO3H3.
The results of these investigations are presented in the thesis consisting of seven chapters. Chapter 1 gives an overview of perovskite related oxides - structure, properties and synthesis. Chapter 2 presents metathesis as a general route for the synthesis of ABO3 oxides and illustrates the method by transforming several rocksalt oxides such as LiCoO2, Li2Mn03 and Li2Ti03 to corresponding ABO3 oxides, LaCoO3, /\MnO3 and ATiO3 (A = Ca, Sr, Ba). Uniformly in all the cases, the perovskite oxides are obtained in the form of loosely connected submicron sized particles at considerably lower temperatures than those usually employed for their synthesis by ceramic methods. Thermodynamic calculations have also been carried out to probe into the driving force of metathesis reactions involved in the synthesis.
Chapter 3 describes an extension of the metathesis route for the synthesis of double perovskites, Sr2MWO6 (M = Mg, Mn, Fe, Ni). For this purpose, first we synthesized new rocksalt oxides of the general formula, Li4MWO6 (M = Mg, Mn, Fe, Ni). The oxides adopt rocksalt superstructures related to Li4MgReO6 (for M = Mg, Mn, Ni) and U4WO5 (for M = Fe). Metathesis reaction between Li4MWO6 and SrCi2 at 750 - 800 °C yields the corresponding double perovskites where the octahedral site M and W are ordered in the long range. Formation of ordered perovskite oxides at relatively low temperatures (750 - 800 °C) by the metathesis route is a significant result, considering that synthesis of these oxides by conventional ceramic method requires much higher temperatures (1300 - 1400 °C) and prolonged annealing.
Synthesis of La2CuO4, Nd2CuO4 and super conducting La-j 85>4oi5Cu04 (A = Sr, Ba) by the metathesis route is described in Chapter 4.
Chapter 5 deals with synthesis, structure and magnetic properties of mixed-metal oxides of ABO3 composition in the La-6-V-O (6 = Ni, Cu) systems. While the B = Ni oxides adopt GdFeO3-like perovskite structure containing disordered nickel and vanadium at the octahedral B site, La3Cu2VO9 crystallizes in a YAIO3-type structure. A detailed investigation of the superstructure of nominal La3Cu2VO9 by WDS analysis and
Rietveld refinement of powder XRD data reveals that the likely composition of the phase is Lai3Cu9V4O38 5, where the Cu and V atoms are ordered in a Vi3ah (ah = hexagonal a parameter of YAlCMike subcell) superstructure. Magnetic susceptibility data support the proposed superstructure consisting of triangular Cu3 clusters. The present work reveals the contrasting behaviour of La-Cu-V-O and La-Ni-V-0 systems, while a unique line-phase related to YAIO3 structure is formed around La3Cu2VO9 composition in the copper system, a continuous series of perovskite-GdFeO3 solid solutions, LaNi1.0CVxO3 for 0 < x < 1/3 seems to obtain in the nickel system.
The chapter also describes the formation of a new transparent Cu(l) oxide, Lai4V6CuO365, and its characterization. This oxide was obtained during attempts to grow single crystals of LasC^VOg. Single crystal structure determination of Lai4V6CuO36 5 showed that the structure contains isolated VO43" tetrahedra and [OCuO]3" sticks dispersed in a lanthanum oxide network. Films of Lai4V6CuO36 5 were grown on R-plane sapphire by using pulsed laser deposition. Rutherford backscattering spectroscopic and X-ray diffraction analyses of the films showed oriented growth of the title phase, with an optical band gap of -~ 5 eV and n-type conductivity
Chapter 6 presents the work on the flexibility of the Aurivillius structures for substitution of aliovalent/isovalent cations at both A and 6 sites of the perovskite slabs. For example, in a typical n = 3 member, Bi2Sr2Nb2TiOi2, substitution of both Sr and Na at the A site and Ta at the B site has enabled us to synthesize a new n = 3 member, Bi2SrNaNb2Ta0i2, where we see a preference of Nb for the terminal octahedral sheets. Similarly, aliovalent substitution only at the B site of the perovskite slabs of Bi2Sr2Nb2TiOi2 has yielded new members for specific compositions, Bi2Sr2Nb2ZrOi2, Bi2Sr2Nb2 5Feo50i2 and Bi2Sr2Nb2 67Zno33012 that tend to be oxygen-stoichiometric. The latter phases again show a preference of Nb for the terminal octahedral sites that are strongly distorted as compared to the middle octahedral site. This chapter also describes substitution of La3+ for Bi3+ in the perovskite slabs of Bi4Nb30i5 stabilizing a new series of n = 1/ n = 2 intergrowth Aurivillius phases of the formulas, Bi4LnNb3Oi5 (Ln = La, Pr, Nd) and Bi4LaTa30i5. The present work suggests that replacement of Bi3+: 6s2 lone pair ion by non-6s2 cations such as Sr2"* and La3+ in the perovskite slabs of Aurivillius phases tends to render the structure Centro symmetric and the materials lose NLOSHG response.
Chapter 7 describes our investigation of the interaction of hydrogen with alkaline earth manganites (IV) >AMnO3 (>A = Ca, Sr, Ba) dispersed with 1 atom % Pt. The result shows an unprecedented uptake of hydrogen by BaMnO3/Pt to the extent of - 1.25 mass % at moderate temperatures (190 - 260 °C) and ambient pressure. Gravimetric sorption isotherms and mass spectrometric analysis of the desorption products indicate that approximately three hydrogen atoms per mole of BaMnCVPt is inserted reversibly. The nature of hydrogen in the insertion product, BaMnO3H3, is discussed in the light of the structure of BaMnC>3.
The work presented in the thesis is carried out by the candidate as a part of the Ph. D. training programme and most of it has been published in the literature. He hopes that the studies reported here will constitute a worthwhile contribution to the materials chemistry of ABO3 oxides in general.
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