Your search keyword '"Maryvonne Hervieu"' showing total 193 results

1. P-T Phase Diagram of LuFe2O4

Author

Maria Poienar, Julie Bourgeois, Christine Martin, Maryvonne Hervieu, Françoise Damay, Gaston Garbarino, Michael Hanfland, Thomas Hansen, François Baudelet, Jean Louis Bantignies, Patrick Hermet, Julien Haines, and Jérôme Rouquette

Subjects

LuFe2O4, pressure-temperature phase diagram, Crystallography, QD901-999

Abstract

The high-pressure behavior of LuFe2O4 is characterized based on synchrotron X-ray diffraction and neutron diffraction, resistivity measurements, X-ray absorption spectroscopy and infrared spectroscopy studies. The results obtained enabled us to propose a P-T phase diagram. In this study, the low pressure charge-ordering melting could be detected by synchrotron XRD in the P-T space. In addition to the ambient pressure monoclinic C2/m and rhombohedral R 3 ¯ m phases, the possible P 1 ¯ triclinic phase, the monoclinic high pressure form Pm and metastable modulated monoclinic phases were observed; the latter modulated monoclinic phases were not observed in the present neutron diffraction data. Furthermore, the transition to the Pm phase which was already characterized by strong kinetics is found to be favored at high temperature (373 K). Based on X-ray absorption spectroscopy data the Pm phase, which could be recovered at atmospheric pressure, can be explained by a change in the Fe-local environment from a five-fold coordination to a distorted 5 + 1 one.

Published

2018

2. Tl0.6Mo3S5, an original large tunnel-like molybdenum sulfide with Mo zigzag chains and disordered Tl cations

Author

Bernard Malaman, Bertrand Lenoir, Petr Levinský, Jaafar Ghanbaja, Patrick Gougeon, Anne Dauscher, Sylvie Migot, Maryvonne Hervieu, Philippe Gall, Jiří Hejtmánek, Christophe Candolfi, Institut des Sciences Chimiques de Rennes (ISCR), Centre National de la Recherche Scientifique (CNRS)-Institut de Chimie du CNRS (INC)-Université de Rennes 1 (UR1), Université de Rennes (UNIV-RENNES)-Université de Rennes (UNIV-RENNES)-Ecole Nationale Supérieure de Chimie de Rennes (ENSCR)-Institut National des Sciences Appliquées - Rennes (INSA Rennes), Institut National des Sciences Appliquées (INSA)-Université de Rennes (UNIV-RENNES)-Institut National des Sciences Appliquées (INSA), Institut Jean Lamour (IJL), Université de Lorraine (UL)-Institut de Chimie du CNRS (INC)-Centre National de la Recherche Scientifique (CNRS), Laboratoire de cristallographie et sciences des matériaux (CRISMAT), École Nationale Supérieure d'Ingénieurs de Caen (ENSICAEN), Normandie Université (NU)-Normandie Université (NU)-Centre National de la Recherche Scientifique (CNRS)-Université de Caen Normandie (UNICAEN), Normandie Université (NU)-Institut de Chimie du CNRS (INC), Institute of Physics of the Czech Academy of Sciences (FZU / CAS), Czech Academy of Sciences [Prague] (CAS), French Agence Nationale de la Recherche (ANR), through the program Energy Challenge for Secure French National Research Agency (ANR) [ANR-15-CE05-0027], Czech Science Foundation Grant Agency of the Czech Republic [18-12761S], program of Czech Research Infrastructures [LM2018096], ANR-15-CE05-0027,MASSCOTE,Matériaux Sulfures à Structures Complexes: application à la Thermoélectricité(2015), Université de Rennes (UR)-Institut National des Sciences Appliquées - Rennes (INSA Rennes), Institut National des Sciences Appliquées (INSA)-Institut National des Sciences Appliquées (INSA)-Ecole Nationale Supérieure de Chimie de Rennes (ENSCR)-Institut de Chimie du CNRS (INC)-Centre National de la Recherche Scientifique (CNRS), Institut de Chimie du CNRS (INC)-Université de Lorraine (UL)-Centre National de la Recherche Scientifique (CNRS), Université de Caen Normandie (UNICAEN), Normandie Université (NU)-Normandie Université (NU)-École Nationale Supérieure d'Ingénieurs de Caen (ENSICAEN), Normandie Université (NU)-Institut de Chimie du CNRS (INC)-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche sur les Matériaux Avancés (IRMA), Normandie Université (NU)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université de Rouen Normandie (UNIROUEN), Normandie Université (NU)-Institut national des sciences appliquées Rouen Normandie (INSA Rouen Normandie), Institut National des Sciences Appliquées (INSA)-Normandie Université (NU)-Institut National des Sciences Appliquées (INSA)-Centre National de la Recherche Scientifique (CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université de Rouen Normandie (UNIROUEN), and Institut National des Sciences Appliquées (INSA)-Normandie Université (NU)-Institut National des Sciences Appliquées (INSA)-Centre National de la Recherche Scientifique (CNRS)

Subjects

Diffraction, Materials science, 02 engineering and technology, Crystal structure, [CHIM.MATE]Chemical Sciences/Material chemistry, [CHIM.INOR]Chemical Sciences/Inorganic chemistry, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, Crystallography, Zigzag, Electron diffraction, Chemistry (miscellaneous), Seebeck coefficient, [CHIM]Chemical Sciences, General Materials Science, Wave vector, Crystallite, 0210 nano-technology, Monoclinic crystal system

Abstract

International audience; We report on the crystal structure and physical properties of Tl0.6Mo3S5, which belongs to a novel family of materials with large tunnels, reminiscent of those observed in the romanechite structure type. Tl cations are partially filling these tunnels delimited by the Mo-S cluster framework in which the Mo atoms form infinite zigzag chains. Single-crystal X-ray diffraction data indicate that this compound crystallizes in the monoclinic, non-centrosymmetric space group P21 (no. 4; a = 9.344(2) angstrom, b = 3.234(2) A, c = 11.669(2) A and beta = 113.09(2)° at 293 K). While electron diffraction performed on single crystals further evidences a commensurate modulation running solely along the b axis with a modulation wave vector further experiments carried out on a polycrystalline sample suggest a compositional dependence of q on the Tl content. Low-temperature transport properties measurements (5-300 K) reveal that Tl0.6Mo3S5 behaves as a narrow-band-gap n-type semiconductor. The strongly non-linear temperature dependence of the thermopower further suggests the presence of several electronic bands contributing to the electrical transport. Consistent with the extended electronic distribution in the tunnels that requires a description using two adjacent Tl sites, specific heat data measured down to 0.35 K evidence the presence of a Schottky-type anomaly that may be associated with the tunneling of the Tl cations between several equivalent, off-centered equilibrium sites. This inherent disorder contributes to suppression of the low-temperature Umklapp peak in the lattice thermal conductivity kL, the temperature dependence of which mimics that observed in strongly-disordered compounds. In spite of this characteristic, high kL values of up to 3.8 W m-1K-1 are reached at 300 K, due to the covalent Mo-S network that contributes to maintaining high sound velocities.

Published

2021

3. Extended Defects and Redox Mechanisms in Thallium Cuprates

Author

Maryvonne Hervieu, Claude Michel, and Bernard Raveau

Subjects

Materials science, chemistry, Thallium, chemistry.chemical_element, Cuprate, Photochemistry, Redox

Published

2020

4. Nanostructures in LuFe2O4+δ

Author

Maryvonne Hervieu, Erik Elkaim, Françoise Damay, Antoine Maignan, Artem M. Abakumov, Christine Martin, G. Van Tendeloo, Maria Poienar, and Jérôme Rouquette

Subjects

Materials science, Condensed matter physics, Neutron diffraction, Stacking, 02 engineering and technology, General Chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, Synchrotron, law.invention, Charge ordering, Crystallography, law, Transmission electron microscopy, 0103 physical sciences, Ferrite (magnet), General Materials Science, 010306 general physics, 0210 nano-technology, Crystal twinning, Monoclinic crystal system

Abstract

A LuFe 2 O 4+ δ sample, previously characterized by X-ray synchrotron and neutron diffraction, has been studied by electron microscopy techniques, in order to get a precise description of its micro- and nanostructures at room temperature. The X-ray synchrotron data vs . temperature show that the monoclinic distortion is associated with the charge ordering; this distortion results in elongated twinning domains, which enhance the complexity of the microstructural state at room temperature. The structural modulation associated with oxygen excess is observed in large domains inside a non modulated matrix, in contrast with the modulations associated with the charge ordering of the Fe 2+ and Fe 3+ species, which are mostly short-range. The investigation of the nature and density of defects in the sample shows that they are nano-scaled, preserving the regularity of the layer stacking mode, and limited to the formation of one- or two-units large stacking faults, associated with gliding mechanisms. Based on these observations, an original description of the LuFe 2 O 4 ferrite structure, through puckered [LuO 4 ] ∞ sandwiching [Fe 2 ] ∞ layers, is proposed.

Published

2013

5. Spherulite-shaped cristobalite by fused silica devitrification

Author

Sylvie Malo, Maryvonne Hervieu, and Olivier Perez

Subjects

Diffraction, Materials science, Condensed Matter Physics, Cristobalite, law.invention, Inorganic Chemistry, Crystallography, Devitrification, Spherulite, Electron diffraction, Transmission electron microscopy, law, Materials Chemistry, Crystallization, Crystal twinning

Abstract

A new form of cristobalite, collected in the form of spheroidal particles as the result of hot corrosion of clear fused silica ampoules, has been studied by X-ray diffraction, scanning and transmission electron microscopy. The transparent or translucent spherulites have a round but flattened shape, one vortex and a core made of nanosheets, perpendicular to the surface, organized in a nearly radial pattern. The electron diffraction study evidenced a single phase material with a pseudo-cubic supercell ( a sp ≈ b sp ≈ c sp ≈14.1 A and a F-type centred lattice) corresponding to an eight-fold multiplicity of the β cristobalite cell. The TEM study evidenced twinning domains and intergrown polytypes, similar to those usually observed in the β → α cristobalite-type transition and cristobalite→tridymite modifications. A formation mechanism of these cristobalite spherulites is proposed on the basis of a salt attack by a doping effect and the formation of droplets from a liquid state of silica.

Published

2011

6. Stability of the Sr2B3O6.5−δ Phases (B = Fe, Co, Ga): Existence Range, Structural and Physical Properties

Author

Antoine Maignan, H. Desmoulins, Maryvonne Hervieu, Sylvie Malo, Olivier Perez, and Denis Pelloquin

Subjects

Range (particle radiation), Crystallography, Materials science, Transmission electron microscopy, General Chemical Engineering, Materials Chemistry, General Chemistry, Isostructural, Stability (probability), Powder diffraction, Solid solution

Abstract

A large solid solution Sr2(Fe3–xCox–yGay)O6.5−δ, isostructural with the modulated Fe-2201 and Co-2201-type structures, has been characterized using X-ray powder diffraction (XRPD), transmission ele...

Published

2011

7. Substitution Effect on the Interplane Coupling in Crednerite: the Cu1.04Mn0.96O2 Case

Author

C. Vecchini, Aziz Daoud-Aladine, Alexandros Lappas, Maria Poienar, C. Martin, Antoine Maignan, Gilles André, Françoise Damay, Laurent Chapon, Maryvonne Hervieu, and Irene Margiolaki

Subjects

Imagination, Materials science, Condensed matter physics, General Chemical Engineering, media_common.quotation_subject, 02 engineering and technology, General Chemistry, Crystal structure, 021001 nanoscience & nanotechnology, 01 natural sciences, Inductive coupling, Octahedron, Ferromagnetism, Lattice (order), 0103 physical sciences, Materials Chemistry, Antiferromagnetism, Substitution effect, 010306 general physics, 0210 nano-technology, media_common

Abstract

The 4%Cu for Mn substitution in CuMnO2 decreases slightly the lattice parameters, reduces the Jahn−Teller distortion of the MnO6 octahedra, but does not change the temperature dependence of the structure, showing a C2/m to P1 structural transition (in the vicinity of the magnetic transition temperature). In contrast, the antiferromagnetic structure is strongly modified by the substitution, as a propagation vector k = (0 1/2 0) is evidenced for Cu1.04Mn0.96O2 compared to k = (0 1/2 1/2) for CuMnO2. Consequently, the interplane magnetic coupling (along the c axis) changes from antiferromagnetic in CuMnO2 to ferromagnetic in Cu1.04Mn0.96O2 without change in the antiferromagnetic arrangement of the ferromagnetic chains in the (a,b) plane. The nanostructural study points toward the existence of numerous defects at the nanoscale which justify the modeling of strains used in the refinement of the crystalline structure.

Published

2010

8. The modulated structure of the calcium aluminate Ca6(AlO2)12·Bi2O3

Author

Sylvie Malo, Olivier Perez, and Maryvonne Hervieu

Subjects

Crystallography, Trigonal bipyramidal molecular geometry, chemistry.chemical_compound, Reciprocal lattice, Coordination sphere, chemistry, Aluminate, Tetrahedron, Stacking, General Medicine, Superspace, Single crystal, General Biochemistry, Genetics and Molecular Biology

Abstract

Bismuth calcium aluminate, Bi2Ca6Al12O27, has been prepared as a ceramic and a single crystal. Analysis of reciprocal space using both electron and X-ray diffraction show an R-centred hexagonal unit cell: a = b = 17.3892 (4), c = 6.986 (1) Å. Additional weak reflections are observed; they require the introduction of a modulation wavevector q = 0.0453 (2)c* for indexing. The modulated structure has been solved using the superspace formalism [superspace group X\overline{3}(00\gamma)0]. A framework of corner-sharing AlO4 tetrahedra forms corrugated sixfold rings and uncommon triple rings. The Ca2+ cations exhibit an eightfold coordination sphere; edge-sharing CaO8 polyhedra form intertwinned zigzagging rows along c creating a three-dimensional net. Bi atoms are located in large hexagonal tunnels parallel to c and form Bi2O3 pairs, which adopt a trigonal bipyramidal configuration. The 6s 2 lone-electron pairs (Lp) point along c, in the opposite direction to the three Bi—O strong bonds to form two BiO3Lp tetrahedra with a common base. Different orientations of the Bi2O3Lp2 pairs, rotated by 60° around c, are observed. Their stacking modes in each of the hexagonal tunnels are described. The sequence of the stacking varies along c in each of the tunnels.

Published

2010

9. A Layered Iron-Rich 2234-Type with a Mixed Valence of Iron: The Ferrimagnetic Tl-Doped Fe2(Sr2-εTlε)Sr3Fe4O14.65

Author

Ninh Nguyen, Sylvie Malo, Gustaaf Van Tendeloo, Maryvonne Hervieu, Christophe Lepoittevin, and Sylvie Hébert

Subjects

Magnetization, Crystallography, Valence (chemistry), Materials science, Electron diffraction, Electrical resistivity and conductivity, Ferrimagnetism, General Chemical Engineering, Mössbauer spectroscopy, Materials Chemistry, Ferrite (magnet), General Chemistry, High-resolution transmission electron microscopy

Abstract

A new Tl-doped strontium ferrite Fe 2 (Sr 2-∈ Tl ∈ )Sr 3 Fe 4 O 14.65, with an original structure, has been synthesized and structurally characterized by powder X-ray diffraction and transmission electron microscopy. The TGA and Mossbauer studies evidence a mixed valence of iron. The structure exhibits a commensurate modulation, with a F-type subcell a ≈ b ≈ 5.4 A (≈ a p √2), c ≈ 42 A with a modulation vector q = αa* with a = 0.4. The supercell parameters have been refined as a= 27.1101(8) A, b= 5.5187(2) A and c= 42.0513(9) A, in the space group Fmmm. The electron diffraction and electron microscopy data of this novel ferrite show that it can be described as a Fe Tl -2234-type structure corresponding to the intergrowth of a quadruple perovskite slice [(SrFeO 2.8 ) 4 ], with a complex rock salt related slice [Fe2(Sr 2-∈ Tl ∈ )O 3.4 ]∞, built up of one double iron layer [Fe 2 O 2.4 ] sandwiched between two [SrO] layers. The HRTEM images show that the oxygen atoms and vacancies are randomly distributed in the perovskite layers while the HAADF STEM images evidence the absence of Tl segregation in the matrix. Fe2(Sr 2-∈ Tl ∈ )Sr 3 Fe 4 O 14.65 exhibits a very large value of x (llemu/mol) at 5 K, which remains large at 400 K; the M(H) loop presents a shape characteristic of ferrimagnetism, with a large coercive field of 0.3 T. The value of magnetization saturates at 400 K at 0.68 μ B /Fe. At 10 K, the value of magnetization reaches a maximum of 2 μ B /Fe. The resistivity presents a semiconducting-like behavior, with p ∼ 800 Ω·cm at 300 K.

Published

2008

10. Example of unusual tetrahedral coordination of Cu(I) in oxides: Cu3VO4

Author

Nicolas Barrier, Bernard Raveau, N. Nguyen, and Maryvonne Hervieu

Subjects

Copper oxide, Materials science, Rietveld refinement, Space group, chemistry.chemical_element, General Chemistry, Crystal structure, Condensed Matter Physics, Copper, Vanadium oxide, chemistry.chemical_compound, Crystallography, Tetragonal crystal system, chemistry, General Materials Science, Powder diffraction

Abstract

The crystal structure of the copper vanadate Cu 3 VO 4 , determined by X-ray powder diffraction, shows tetrahedral coordination of Cu(I) which is particularly unusual in oxides. Cu 3 VO 4 presents a tetragonal unit-cell, isotypic to the famatinite Cu 3 SbS 4 , with the following parameters: a = 4.57531(9) A; c = 8.9918(3) A; space group I -42 m . Its structure can be described as a three dimensional framework of corner shared CuO 4 and VO 4 tetrahedra, distributed in an ordered way and forming pure copper-oxide layers [Cu 2 O 4 ] ∞ alternating with mixed copper/vanadium oxide layers [CuVO 4 ] ∞ . In the latter one observes a 1:1 ordering of the CuO 4 and VO 4 tetrahedra forming [CuVO 3 ] ∞ chains running along the [110] direction.

Published

2008

11. Lithium Insertion in an Oriented Nanoporous Oxide with a Tunnel Structure: Ti2Nb2O9

Author

Bernard Raveau, Valerie Pralong, Maryvonne Hervieu, J.-F. Colin, and Vincent Caignaert

Subjects

Materials science, Nanoporous, General Chemical Engineering, Intercalation (chemistry), Oxide, chemistry.chemical_element, General Chemistry, Electrochemistry, chemistry.chemical_compound, Chemical engineering, chemistry, Phase (matter), Materials Chemistry, Lithium

Abstract

The electrochemical study of the empty tunnel structure Ti2Nb2O9 shows that it can intercalate lithium reversibly, through a solid−solution process, leading to the phase Li4Ti2Nb2O9. The high-resol...

Published

2008

12. Structural and Magnetic Transitions in CaMn1-xWxO3

Author

Z. Jirak, Jiri Hejtmanek, Antoine Maignan, K. Knizek, Maryvonne Hervieu, C. Martin, Sylvie Hébert, Raymond Frésard, M. Miclau, and Richard Retoux

Subjects

Materials science, Condensed matter physics, General Chemical Engineering, Doping, General Chemistry, Electron, Condensed Matter::Materials Science, Charge ordering, Crystallography, Ferromagnetism, Materials Chemistry, Antiferromagnetism, Condensed Matter::Strongly Correlated Electrons, Powder diffraction, Monoclinic crystal system, Phase diagram

Abstract

The perovskite manganites CaMn1-xWxO3 are studied up to the solubility limit by using transmission electron microscopy, X-ray powder diffraction, and magnetic and transport measurements. The phase diagram shows three compositional regions at low temperatures. As x increases, (i) regular Pnma perovskite structure and G-type antiferromagnetism (AFM) combined with a weak ferromagnetic (FM) component, (ii) strongly distorted monoclinic P21/m structure and C-type AFM associated with orbital ordering, and (iii) strongly distorted Pnma structure, associated with charge and orbital ordering and AFM arrangement, are observed. Our measurements demonstrate that each W6+ ion creates two extra electron carriers in the Mn4+ matrix and appears as a defect in the Mn sublattice. This B-site disorder, together with the lower itinerancy of the doped carriers, make favorable conditions for orbital and/or charge ordering at unusually high critical temperatures (up to 380 K).

Published

2007

13. First critical steps for understanding complex advanced materials: Synergy between X-ray diffraction and electron microscopy

Author

Maryvonne Hervieu and Claude Michel

Subjects

Optics, Personal account, Hierarchy (mathematics), Chemistry, business.industry, Building code, General Chemical Engineering, X-ray crystallography, General Chemistry, Advanced materials, business, Engineering physics

Abstract

Attaining novel structures in compounds displaying remarkable properties is the goal of numerous solid-state chemists and physicists. Several approaches for predicting new structures exist but, whatever they are, one of the essential steps is to understand their architecture. It needs to collect the maximum information for deciphering the building code. In this paper, we give a personal account and focus on the powerful synergy of transmission electron microscopy and X-ray diffraction techniques for achieving it. We have chosen the example of the misfit-layered cobaltites, which appear more and more complex as we attain each new level in the hierarchy of their structures. We have limited our illustration to the first period of the misfit cobaltites “research story”, from the discovery of highly complex oxides to the understanding of the architecture building, without reporting on the numerous further papers devoted to iso-structural compounds and to their remarkable properties of thermoelectric power.

Published

2007

14. The (3 + 2)D structure of oxygen deficient LaSrCuO3.52

Author

Claude Michel, Nicolas Créon, Olivier Perez, Joke Hadermann, and Maryvonne Hervieu

Subjects

Crystallography, Transition metal, chemistry, Octahedron, Oxygen deficient, Electron diffraction, Group (periodic table), Neutron diffraction, Materials Chemistry, chemistry.chemical_element, General Chemistry, Copper, Oxygen

Abstract

The (3 + 2)D modulated structure of the oxygen deficient compound LaSrCuO3.52 was determined using a combination of electron diffraction and neutron diffraction. The cell parameters are a = b = 3.7587(3) A, c = 13.0074(9) A, α = β = γ = 90°, superspace group I4/mmm (αα0, α−α0)00 mg, α = 0.2222(3), Rp = 4.5%, R0 = 2.1%, R1 = 4.9%. The oxygen vacancies are located in the CuO2−δ plane and are ordered with the oxygen atoms, creating three different oxygen environments for the Cu atoms: CuO4 squares, CuO5 pyramids and CuO6 octahedra.

Published

2007

15. High-pressure polymorph ofLuFe2O4with room-temperature antiferromagnetic order

Author

Thomas Hansen, Maryvonne Hervieu, C. Martin, J. Bourgeois, Leszek Konczewicz, Anne Guesdon, Erik Elkaim, Tahar Hammouda, Jérôme Rouquette, Patrick Hermet, Françoise Damay, Maria Poienar, and Julien Haines

Subjects

Physics, media_common.quotation_subject, Neutron diffraction, Order (ring theory), Frustration, Charge (physics), Condensed Matter Physics, Electronic, Optical and Magnetic Materials, Magnetization, Crystallography, X-ray crystallography, Antiferromagnetism, Monoclinic crystal system, media_common

Abstract

Branded for its potential electronic ferroelectricity, charge-ordered $\mathrm{LuF}{\mathrm{e}}_{2}{\mathrm{O}}_{4}$ has a layered Fe triangular framework, whose topology is a source of degeneracy, both at the charge and spin levels. Here we present an in-depth characterization of $\mathrm{LuF}{\mathrm{e}}_{2}{\mathrm{O}}_{4}\text{\ensuremath{-}}hp$, the high-pressure $(hp)$ polymorph of $\mathrm{LuF}{\mathrm{e}}_{2}{\mathrm{O}}_{4}$, using electron, x-ray, and neutron diffraction, combined with transport and magnetization measurements. We show that $\mathrm{LuF}{\mathrm{e}}_{2}{\mathrm{O}}_{4}\text{\ensuremath{-}}hp$ is characterized by a misfit-related monoclinic structure, accommodating a buckled triangular ${[\mathrm{Lu}]}_{\ensuremath{\infty}}$ layer and two shifted adjacent rectangular ${[\mathrm{Fe}]}_{\ensuremath{\infty}}$ planes belonging to a distorted rock salt--type layer. The release of the geometric frustration of the Fe magnetic lattice in the $hp$ form leads to collinear antiferromagnetic ordering at ${T}_{N}=380\phantom{\rule{0.16em}{0ex}}\mathrm{K}$. Possible coexistence of charge and magnetic orders in this material opens research pathways for the design of tunable multifunctional devices using high-pressure techniques.

Published

2015

16. Rare earth ferrites LuFe2O4±x polymorphism, polytypism and metastable phases

Author

Antoine Maignan, Maryvonne Hervieu, C. Martin, Françoise Damay, Laboratoire de cristallographie et sciences des matériaux (CRISMAT), École Nationale Supérieure d'Ingénieurs de Caen (ENSICAEN), Normandie Université (NU)-Normandie Université (NU)-Centre National de la Recherche Scientifique (CNRS)-Université de Caen Normandie (UNICAEN), Normandie Université (NU)-Institut de Chimie du CNRS (INC), Université de Caen Normandie (UNICAEN), Normandie Université (NU)-Normandie Université (NU)-École Nationale Supérieure d'Ingénieurs de Caen (ENSICAEN), Normandie Université (NU)-Institut de Chimie du CNRS (INC)-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche sur les Matériaux Avancés (IRMA), Normandie Université (NU)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université de Rouen Normandie (UNIROUEN), Normandie Université (NU)-Institut national des sciences appliquées Rouen Normandie (INSA Rouen Normandie), Institut National des Sciences Appliquées (INSA)-Normandie Université (NU)-Institut National des Sciences Appliquées (INSA)-Centre National de la Recherche Scientifique (CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université de Rouen Normandie (UNIROUEN), Institut National des Sciences Appliquées (INSA)-Normandie Université (NU)-Institut National des Sciences Appliquées (INSA)-Centre National de la Recherche Scientifique (CNRS), Laboratoire Léon Brillouin (LLB - UMR 12), and Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)

Subjects

Work (thermodynamics), Materials science, Rare earth, 02 engineering and technology, General Chemistry, [CHIM.MATE]Chemical Sciences/Material chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, Structural transitions, [CHIM.THEO]Chemical Sciences/Theoretical and/or physical chemistry, Crystallography, Polymorphism (materials science), Metastability, High pressure, 0103 physical sciences, Energy materials, [CHIM.CRIS]Chemical Sciences/Cristallography, [CHIM]Chemical Sciences, General Materials Science, Polymorphism, 010306 general physics, 0210 nano-technology, Oxygen content, Layered ferrites

Abstract

International audience; This work is a compendium of the structural properties of layered LnFe2O4±x ferrites, focussed on recently discovered polymorphs and their transitions through five complex commensurate and incommensurate modulated structures. These phases are obtained varying the oxygen content (reversibly from O4.0 to O4.5) or applying high pressure (up to 15 GPa). The relationships between the different structures are discussed and models are proposed. These ferrites, which contain magnetic cations and exhibit remarkable 3D flexibility, open the road for magnetic, electric, catalytic or energy materials. © 2015 Elsevier Masson SAS. All rights reserved.

Published

2015

17. Disordered commensurate structure of the 2212-related phase Fe2(Bi0.69Sr2.31)Fe2O9.5±1/2δ and structural mechanism

Author

Sylvie Malo, Maryvonne Hervieu, Christophe Lepoittevin, D. Grebille, Oliver Pérez, and N. Nguyen

Subjects

Superconductivity, Mössbauer effect, Condensed matter physics, Chemistry, Superlattice, Space group, Condensed Matter Physics, Electronic, Optical and Magnetic Materials, Inorganic Chemistry, Crystallography, Tetragonal crystal system, X-ray crystallography, Materials Chemistry, Ceramics and Composites, Physical and Theoretical Chemistry, Single crystal, Perovskite (structure)

Abstract

The structure of the Fe2(Bi0.69Sr2.31)Fe2O9.5−1/2δ has been carried out by single crystal X-ray diffraction. Its structure can be considered as commensurately modulated with a basic structure of Fmmm symmetry and with a modulation vector q ⇒ = α a ⇒ * + γ c ⇒ * whose α and γ values are, respectively, equal to 1/3 and 1. The ferrite is described as a three-fold superstructure with a ≈ 3 a p 2 , b ≈ a p 2 and c ≈ 26 A (space group Bbmb). It is described using a disorder model in agreement with diffuse scattering observations. The structure is built up from the intergrowth sequence between [(Bi, Sr)Fe2O3.5±1/2δ]∞ complex layers, related to the rock salt (RS)-type blocks, and double perovskite layers. Large analogies are found between the present structure and the so-called 2212 modulated structures related to the high Tc superconductor copper oxides or to the corresponding Fe or Co oxides; they are discussed here. A statistical disorder characterizes the [Fe2O2.5±1/2δ]∞ double layer. Taking advantage of similar structural arrangements in related oxide compounds, a structural model is proposed. A description of this double layer is then given in terms of sequence of polyhedra (tetragonal pyramids, mono-caped tetrahedra and trigonal bi-pyramids), in comparison with other related modulated structures with different periodicities. The powder sample exhibits a statistical distribution of α around an average value of 0.35; the oxygen non-stoichiometry appears as the driving force for the α value, i.e. for the modulation, commensurate or incommensurate. The Mossbauer study has been performed and interpreted on the basis of the refined structure.

Published

2006

18. Pb4Sr13Fe24O53: an original terrace structure, related to Sr4−xPbxFe6O13−δ

Author

Maryvonne Hervieu, A. Maignan, Sylvie Malo, Olivier Perez, N. Nguyen, and Christophe Lepoittevin

Subjects

Diffraction, Materials science, Chemistry, General Medicine, General Chemistry, Condensed Matter Physics, Magnetic susceptibility, Reciprocal lattice, Magnetization, Crystallography, Electron diffraction, Octahedron, Group (periodic table), Phase (matter), Ribbon, General Materials Science, Solid solution, Monoclinic crystal system

Abstract

The Pb for Sr substitution in Sr4Fe6O13±δ evidenced a limited existence range of solid solution Sr4−xPbxFe6O13−δ, with x ⩽ 0.7 . For higher lead content, an original phase has been discovered for the composition Pb4Sr13Fe24O53 with a terrace-like structure. The cell is monoclinic and the parameters refined from the powder X-ray diffraction data are a T = 35.039 ( 2 ) A , b T = 5.5897 ( 2 ) A , c T = 25.662 ( 2 ) A and β = 98 ° 102 ( 2 ) , space group Cc or C2/c. The reconstruction of the reciprocal space allowed describing the structure from a monoclinic sub-cell with different sets of modulation vectors. The high resolution electron microscopy showed that the new phase has a terrace-like structure corresponding to the formation of two types of ribbons parallel to the [302]sub direction. One ribbon is made of 2212-type bricks, 3 / 2 a → sub large, and the second is made of 2201-type bricks, 2 a → sub large. The new structure is therefore described as the intergrowth of 2201-type slices, m octahedra large, and 2212-type slices, n octahedra large. It is therefore the m = 4 and n = 3 member of a large new structural family [Fe2(Sr2)FeO6.5±1/2δ]2201m[Fe2(Sr3−xA2+x)Fe2O9.5±1/2δ]2212n. The magnetic measurements evidence an anti-ferromagnetic-like magnetic transition at T ≈ 730 K showing that the samples, as the Sr4−xPbxFe6O13−δ, ones are magnetic at room temperature.

Published

2006

19. Coupled Cation and Charge Ordering in the CaMn3O6 Tunnel Structure

Author

Lisa J. Gillie, Christine Martin, Artem M. Abakumov, Joke Hadermann, and Maryvonne Hervieu

Subjects

Magnetization, Charge ordering, Crystallography, Electron diffraction, Ferrimagnetism, Chemistry, General Chemical Engineering, Materials Chemistry, Orthorhombic crystal system, General Chemistry, Crystal structure, Manganite, Monoclinic crystal system

Abstract

The synthesis and crystal structure of a mixed valent manganite CaMn3O6, equivalent to Ca2/3Mn2O4, are reported, along with the magnetic properties. The structure was determined using electron diffraction and high-resolution transmission electron microscopy and refined from X-ray and neutron powder diffraction data (a = 10.6940(3) A, b = 11.3258(3) A, c = 8.4881(2) A, = 122.358(2), space group P21/a, RI = 0.037, RP = 0.118). The structure is based on a framework of double chains of edge-sharing MnO6 octahedra. The corner-sharing chains form a framework with six-sided tunnels, identical to that of the CaFe2O4 structure. The Ca2+ cations are located in the tunnels. Compared to CaFe2O4, one-third of the Ca positions in the tunnels remain vacant, with an ordered distribution of vacant and occupied sites. The empty sites in neighboring Ca chains are shifted relative to each other along the c-axis by one period of the CaFe2O4 subcell, which results in a symmetry decrease from orthorhombic to monoclinic. Based on the interatomic Mn-O distances, the charge ordering in CaMn3O6 is discussed. The compound exhibits a strong anti-ferromagnetic character, and differences between the zfc and fc magnetization curves at low temperature suggest ferro- or ferrimagnetic interactions.

Published

2006

20. A Novel Layered Titanoniobate LiTiNbO5: Topotactic Synthesis and Electrochemistry versus Lithium

Author

Bernard Raveau, Vincent Caignaert, Maryvonne Hervieu, J.-F. Colin, and Valerie Pralong

Subjects

Inorganic chemistry, Intercalation (chemistry), chemistry.chemical_element, General Medicine, Electrochemistry, Exfoliation joint, Inorganic Chemistry, Crystallography, chemistry, Phase (matter), Lithium, Physical and Theoretical Chemistry, Molten salt, Eutectic system

Abstract

A new layered titanoniobate, LiTiNbO5, an n = 2 member of the A(x)M(2n)O(4n+2) family, has been synthesized using a molten salt reaction between HTiNbO5 and an eutectic "LiOH/LiNO3". This compound crystallizes in the P2(1)/m space group with a = 6.41 A, b = 3.77 A, c = 8.08 A, and beta = 92 degrees . It exhibits |TiNbO5|(infinity) layers similar to HTiNbO5, but differs from the latter by a "parallel configuration" of its |TiNbO6|(infinity) ribbons between the two successive layers. The topotactic character of the reaction suggests that exfoliation plays a prominent role in the synthesis of this new form. This new phase intercalates reversibly 0.8 lithium through a first-order transformation leading to a capacity of 94 mAh/g at a potential of 1.67 V vs Li/Li+.

Published

2006

21. Mixed (Sr1 − x Ca x )33Bi24Al48O141 fullerenoids: the defect structure analysed by (S)TEM techniques

Author

Oleg I. Lebedev, Sara Bals, Gustaaf Van Tendeloo, G. Etienne Snoeck, Richard Retoux, Sophie Boudin, and Maryvonne Hervieu

Subjects

Materials Chemistry, Metals and Alloys, Physical and Theoretical Chemistry, Condensed Matter Physics

Abstract

(Sr1−x Ca x )33Bi24+δ Al48O141+3δ/2 fullerenoid solid solutions have been synthesized and the effect of partial substitution of Sr by Ca has been characterized by (scanning) transmission electron microscopy, applying different imaging methods. Most of the defects commonly observed in face centered cubic compounds, have also been observed in (Sr1−x Ca x )33Bi24+δ Al48O141+3δ/2. Based on purely geometrical and topological models, structural presentations for the coherent twin boundaries and stacking faults have been constructed on the basis of complex spherical “Al84O210” units. The results are compared to defects observed in the crystallite fullerite C60.

Published

2006

22. Estudio de la posible coexistencia de ferromagnetismo y orden de carga en óxidos cerámicos Bi1-xSrxMnO3 (x﹤0.3)

Author

Carlos Frontera, Albert Calleja, X. C. Capdevila, Maryvonne Hervieu, Marc Respaud, M. Giot, and José Luis García-Muñoz

Subjects

Oxide ceramics, Materials science, Ferromagnetism, Mechanics of Materials, visual_art, Ceramics and Composites, visual_art.visual_art_medium, Mineralogy, Ceramic, Engineering physics, Industrial and Manufacturing Engineering

Abstract

Financial support by the MEC (MAT2003-07483-C02-02) and Generalitat de Catalunya (2005SGR-0059, PICS2005-14) is thanked. C.F. acknowledges financial support from MEC (Spain). We thank ILL, the CRG-D1B and ESRF for the provision of beam time. The LNCMP in Toulouse is also acknowledged.

Published

2006

23. Potencia termoeléctrica de cerámicas basadas en cobaltitas: optimización mediante sustitución química

Author

D. Pelloquin, A. Maignan, S. Hebert, Y. Klein, and Maryvonne Hervieu

Subjects

Ionic radius, Stereochemistry, chemistry.chemical_element, Block (periodic table), Industrial and Manufacturing Engineering, Crystallography, chemistry, Electron diffraction, Mechanics of Materials, Seebeck coefficient, Thermoelectric effect, X-ray crystallography, Ceramics and Composites, Electroceramics, Cobalt

Abstract

The ceramics of misfit cobaltites form a large family of layer oxides which exhibit large values of Seebeck coefficient (S 300K ≥ 90μV.K -1 ). They can be divided in two categories depending on the number of the rocksalt-type (RS) layers, n = 3 or n = 4, separating the [CoO 2 ] conducting layers. From the comparison of their structural features, it is found that the S values are governed by the incommensurability ratio and/or the charge of the RS block. This is clearly evidenced by making chemical substitutions at the level of the RS block: isovalent but with cations of different ionic radius (r Ba 2+ > r Sr 2+ > r Ca 2+ ) modifying the incommensurability ratio or aliovalent substitutions for cobalt (Pb 4+ , Ti 4+ ) which keep unchanged the structural incommensurability but make the RS charge changing.

Published

2006

24. Bi1-xCaxMnO3 (x = 0.4 and 0.45): X-ray Single-Crystal and Electron Microscopy Study

Author

Maryvonne Hervieu, Pascal Roussel, M. Nevriva, Olivier Perez, Sylvie Malo, Maud Giot, Karel Knizek, Premek Beran, Bernard Raveau, Laboratoire de cristallographie et sciences des matériaux (CRISMAT), École Nationale Supérieure d'Ingénieurs de Caen (ENSICAEN), Normandie Université (NU)-Normandie Université (NU)-Centre National de la Recherche Scientifique (CNRS)-Université de Caen Normandie (UNICAEN), Normandie Université (NU)-Institut de Chimie du CNRS (INC), Laboratoire Léon Brillouin (LLB - UMR 12), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Centre National de la Recherche Scientifique (CNRS)-Université Paris-Saclay, Institute of Chemical Technology, Chinese Academy of Sciences [Beijing] (CAS), Institute of Physics, Unité de Catalyse et Chimie du Solide - UMR 8181 (UCCS), Centrale Lille Institut (CLIL)-Université d'Artois (UA)-Centrale Lille-Centre National de la Recherche Scientifique (CNRS)-Institut de Chimie du CNRS (INC)-Université de Lille, Université de Caen Normandie (UNICAEN), Normandie Université (NU)-Normandie Université (NU)-École Nationale Supérieure d'Ingénieurs de Caen (ENSICAEN), Normandie Université (NU)-Institut de Chimie du CNRS (INC)-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche sur les Matériaux Avancés (IRMA), Normandie Université (NU)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université de Rouen Normandie (UNIROUEN), Normandie Université (NU)-Institut national des sciences appliquées Rouen Normandie (INSA Rouen Normandie), Institut National des Sciences Appliquées (INSA)-Normandie Université (NU)-Institut National des Sciences Appliquées (INSA)-Centre National de la Recherche Scientifique (CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université de Rouen Normandie (UNIROUEN), Institut National des Sciences Appliquées (INSA)-Normandie Université (NU)-Institut National des Sciences Appliquées (INSA)-Centre National de la Recherche Scientifique (CNRS), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS), and Université d'Artois (UA)-Centrale Lille-Institut de Chimie du CNRS (INC)-Université de Lille-Centre National de la Recherche Scientifique (CNRS)

Subjects

Diffraction, Chemistry, General Chemical Engineering, X-ray, [CHIM.MATE]Chemical Sciences/Material chemistry, 02 engineering and technology, General Chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Synchrotron, law.invention, Crystallography, Octahedron, Electron diffraction, law, 0103 physical sciences, Materials Chemistry, Orthorhombic crystal system, 010306 general physics, 0210 nano-technology, Single crystal, Powder diffraction

Abstract

The superstructure of Bi 1-x Ca x MnO 3 (x = 0.4 or 0.45), which exhibits a charge/orbital-ordered state at room temperature (Tco ≈ 330 K), has been successfully determined at different temperatures using single-crystal X-ray diffraction data and the superspace formalism. This peculiar approach provides a very convenient way to analyze all possible 3D symmetry (P2 1 /m, Pm, and Pnm2 1 ) of the superstructure. The structural model of the ordered state has been confirmed thanks to complementary data from several other techniques (electron diffraction, high-resolution electron microscopy (HREM), and synchrotron high-resolution X-ray powder diffraction, all vs T). It is compatible with an orthorhombic cell (a = 11.002(2) A, b = 7.588(1) A, c = 5.425(4) A at 150 K) and the space group Pnm2 1 . The structural model is based on the alternation of one double band of Mn(1)O 6 octahedra and one double band of Mn(2)O 6 octahedra, the two octahedron types exhibiting almost similar distortion. HREM images were then simulated from the refined atomic positions; the good agreement with the experimental images confirms the model. Finally, the relationships between structural characterizations and magnetic properties have been investigated for these compounds.

Published

2006

25. Unusual Mobility of Cesium via a Reversible Topotactic Dehydration Reaction in a New Hydroxygallophosphate with an Intersecting Tunnel Structure

Author

Anne Guesdon, J. Lesage, Maryvonne Hervieu, and Bernard Raveau

Subjects

Crystallography, Materials science, Chemical engineering, Dehydration reaction, chemistry, General Chemical Engineering, Caesium, Materials Chemistry, Hydrothermal synthesis, chemistry.chemical_element, General Medicine, General Chemistry

Abstract

The investigation of the system Cs−Ga−P−O by hydrothermal synthesis has allowed a new hydrated hydroxygallophosphate with an intersecting tunnel structure, Cs2Ga6(OH)2(PO4)6·1.55H2O, to be synthesi...

Published

2006

26. A new light on the iron coordination in Sr4Fe6O13±δ: Super space formalism and structural mechanism

Author

B. Raveau, B. Mellenne, Olivier Perez, Richard Retoux, and Maryvonne Hervieu

Subjects

Diffraction, Chemistry, Oxide, General Chemistry, Crystal structure, Condensed Matter Physics, Tetragonal crystal system, Crystallography, chemistry.chemical_compound, X-ray crystallography, Tetrahedron, General Materials Science, Structural unit, Single crystal

Abstract

The incommensurate modulated structure of Sr4Fe6O13±δ refined in super space formalism, from single crystal X-ray diffraction data. The analysis of this structure shows that the geometry of the iron polyhedra, their respective positions and arrangement are fundamentally different from those previously described for this oxide. Three types of iron environment, namely trigonal bipyramids, tetragonal pyramids and monocaped tetrahedra are observed in the double iron oxygen layers. The peculiar role of a structural unit built up from double trigonal bipyramids is outlined and the notion of disorder is detailed. The structural mechanism of this modulation character of the double iron layer is analyzed, compared to other related phases built of one single perovskite layer inter-grown with a complex slice made of one modulated double layer sandwiched between two [AO]∞ layers.

Published

2006

27. Structural and magnetic properties of the solid solution (0⩽x⩽1) YMn1−(Cu3/4Mo1/4) O3

Author

Bernard Raveau, Kenneth R. Poeppelmeier, Sylvain Marinel, Sylvie Malo, Maryvonne Hervieu, and Antoine Maignan

Subjects

Lanthanide, Chemistry, 02 engineering and technology, General Chemistry, 010402 general chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, Magnetic susceptibility, 0104 chemical sciences, Crystallography, Paramagnetism, Antiferromagnetism, Curie temperature, General Materials Science, 0210 nano-technology, Néel temperature, Superstructure (condensed matter), Solid solution

Abstract

Recently, the ferroelectromagnet YMnO3 has been the focus of interest because it exhibits both antiferromagnetism (Neel temperature ∼ 80 K ) and ferroelectricity (Curie temperature ∼ 914 K ). There have been no reports of complete YMn 1 − x M x O 3 solid solutions in which substitution of the foreign M cation preserves the hexagonal P63cm structure. In contrast there exist several homeotypic phases with the general formula, Ln 1 + n Cu n M O 3 + 3 n ( n = 1 ( M = Ti ), 2 ( M = V ) and 3 ( M = Mo ); Ln: lanthanide). Several YMn1−x(Cu3/4Mo1/4)xO3 compounds have been synthesized. The solid solution, from YMnO3 ( x = 0 ) to YCu3/4Mo1/4O3 ( x = 1 ) has been characterized by X-ray diffraction and transmission electron microscopy study. For 0 x 0.9 , the compounds are found to crystallize in the non-centrosymmetric structure, space group P63cm, of YMnO3. The Mn-free end member, x = 1 , crystallizes in a complex multiple cell, the superstructure being associated to Cu3+/Mo6+ cationic ordering. Dilution of the Mn3+ magnetic array by the paramagnetic (Cu2+) and diamagnetic (Mo6+) cations is found to decrease the antiferromagnetic ordering temperature and it becomes undetectable for x ⩾ 0.5 compositions.

Published

2005

28. A Large Family of Iron Ruddlesden-Popper Relatives: from Oxides to Oxycarbonates and Oxyhydroxides

Author

Bernard Raveau, Carine Michel, Denis Pelloquin, Richard Retoux, and Maryvonne Hervieu

Subjects

Inorganic Chemistry, Tetragonal crystal system, chemistry.chemical_compound, Crystallography, chemistry, Octahedron, Oxygen deficient, Carbonate, Mineralogy, Crystal structure, Multiplicity (chemistry)

Abstract

Iron oxides, oxyhydroxydes and oxycarbonates derived from the layered Ruddlesden-Popper (RP) structure form a large family of layered compounds. Besides the classical RP oxides Srn+1FenO3n+1, single intergrowths with the generic formulation (A,Sr)n+2FenO3n+2 and (A,Sr)n+3FenO3n+3 (A = Tl, Pb, Bi…) can be generated by increasing the multiplicity of the rock salt layers, and multiple intergrowths of these single intergrowths can be synthesized. Starting from oxygen deficient RP oxides such as n = 3 member Sr3NdFe3O9−δ, oxyhydroxydes hydrates and oxyhydroxydes such as Sr3NdFe3O7.5(OH)2·H2O and Sr3NdFe3O7.5(OH)2 can be created topotactically. Carbonate groups can also replace FeO6 octahedra in the n = 3 member Sr4Fe3O10, leading to layered oxycarbonates Sr4Fe3−x(CO3)xO10−4x with 0 < × ≤ 1. Shearing mechanism applied transversally to the layers allows collapsed structures to be generated such as the [Bi2Sr3Fe2O9]n [Bi4Sr6Fe2O16] family and the ferrite Bi13Ba2Sr25Fe13O66. Finally the replacement of rock salt SrO layers in the intergrowth Sr2FeO4 allows a new series of modulated structures [Sr8Fe12O26]·[Sr3Fe2O6]n to be generated, built up of layers of FeO5 bipyramids and tetragonal pyramids intergrown with perovskite layers.

Published

2005

29. Pr0.5Ca0.5Mn0.97Ga0.03O3, a strongly strained system due to the coexistence of two orbital ordered phases at low temperature

Author

Maryvonne Hervieu, Richard Retoux, Antoine Maignan, François Fauth, Z. Jirák, C. Martin, C. Yaicle, and B. Raveau

Subjects

Materials science, Colossal magnetoresistance, Condensed matter physics, Order (ring theory), Crystal structure, Electron, Condensed Matter Physics, Manganite, Electronic, Optical and Magnetic Materials, Inorganic Chemistry, Charge ordering, Electron diffraction, Materials Chemistry, Ceramics and Composites, Physical and Theoretical Chemistry, Perovskite (structure)

Abstract

Combining low-temperature electron (ED) and synchrotron powder diffraction (SPD) techniques, we have precisely determined the phase-separated crystal structure of Pr{sub 0.5}Ca{sub 0.5}Mn{sub 0.97}Ga{sub 0.03}O{sub 3}. We demonstrate that the phase separation is associated with the onset of charge/orbital ordering at {approx}230K and that two ordered phases coexist at low temperature. In order to account for the significant anisotropic linewidth broadening observed in the SPD patterns, we had to include a specific strain model in the refinements. One of the phases, the most severely strained, is suggested to result from an imperfect charge ordering.

Published

2005

30. Spin Glass to Weak Ferromagnetic Transformation in a New Layered Cobaltite: Consequence of Topotactic Reactions with Water at Room Temperature

Author

Vincent Caignaert, Maryvonne Hervieu, A. Maignan, Teruki Motohashi, Denis Pelloquin, Valerie Pralong, and Bernard Raveau

Subjects

Materials science, Spin glass, General Chemical Engineering, Inorganic chemistry, Niobium, Oxide, chemistry.chemical_element, General Medicine, General Chemistry, Cobaltite, chemistry.chemical_compound, Crystallography, chemistry, Ferromagnetism, Materials Chemistry, Curie temperature, Hydrate, Cobalt

Abstract

A new n = 2-member of the Ruddlesden−Popper (RP) cobaltite series, Sr3-δCo1.9Nb0.1O6.65-δ, has been stabilized by niobium doping. This oxide reacts topotactically with atmospheric water through hydrolysis/hydration and reduction of cobalt, leading to an oxyhydroxide hydrate derivative, Sr3-δCo1.9Nb0.1O4.86-δ(OH)3.04·0.4H2O. The reaction with water at room temperature induces a magnetic transformation from a spin glass behavior with a freezing temperature Tg ≈ 50 K for the pristine RP oxide to weak ferromagnetism with an apparent Curie temperature TC ≈ 200 K for the oxyhydroxide hydrate derivative. The spectacular effect of water upon the magnetic properties of this layered oxide is explained by the partial reduction of Co4+ into Co3+ species, concomitantly inducing a coordination change for cobalt cations that form antiferromagnetic coupling between high-spin Co3+. A generalization of this phenomenon to other layered cobaltites and even iron oxides is considered.

Published

2005

31. A Relative of Sr4Fe6O13 with Double Perovskite Layers: Bi4Sr14Fe24O56, m = 2-Members of a Potential Series [(Sr,Bi)2Fe4O7-δ][(Sr,Bi)2Fe2O6]m

Author

Maryvonne Hervieu, Christophe Lepoittevin, D. Grebille, Sylvie Malo, and Bernard Raveau

Subjects

chemistry.chemical_classification, Materials science, General Chemical Engineering, Oxide, General Chemistry, Polymer, law.invention, Crystallography, chemistry.chemical_compound, chemistry, law, Materials Chemistry, Ferrite (magnet), Double perovskite, Electron microscope

Abstract

A new ferrite Bi4Sr14Fe24O56 (i.e., Bi4/3Sr14/3Fe8O18.66) has been synthesized. The high-resolution electron microscopy study of this oxide shows that its modulated structure consists of an origina...

Published

2004

32. Oxygen Nonstoichiometry in Sr4Fe6O13-δ: The Derivatives [Sr8Fe12O26]·[Sr2Fe3O6]n

Author

Richard Retoux, B. Mellenne, Maryvonne Hervieu, Christophe Lepoittevin, and B. Raveau

Subjects

Argon, Chemistry, General Chemical Engineering, Inorganic chemistry, Oxide, chemistry.chemical_element, General Chemistry, Oxygen, Nitrogen, law.invention, Tetragonal crystal system, chemistry.chemical_compound, Crystallography, Electron diffraction, law, Materials Chemistry, Ferrite (magnet), Electron microscope

Abstract

Different samples of the ferrite Sr 4 Fe 6 O 13 , synthesized in air, nitrogen, and argon, have been studied by high-resolution electron microscopy. It is shown that this oxide is oxygen-deficient, i.e., Sr 4 Fe 6 O 13-δ , and that its structure is modulated. The electron diffraction study shows that the modulation vector is pa* + qc*, with p = (1 - δ)/2 varying in the range [0.4-0.5] and q close to 1. It is shown that the component of the modulation vector along c induces complex modulated structures. It is also demonstrated that oxygen nonstoichiometry corresponds to the generation of microphases [Sr 8 Fe 12 O 26 ] [Sr 2 Fe 3 O 6 ] n , whose first integral member n = 1, which corresponds to p = 0.4, is isolated here for the first time by synthesis under argon. Structural models involving intergrowths of single perovskite [Sr 2 Fe 2 O 6 ]∞ layers with complex [Sr 2 Fe 4 O 7-δ ]∞ layers involving two kinds of pyramidal ribbons, FeO 5 trigonal bi-pyramids and FeO 5 distorted tetragonal pyramids, explain the oxygen deficiency.

Published

2004

33. Praseodymium magnetic contribution in the low temperature structure of Pr0.8Ca0.2MnO3

Author

Christine Martin, Dominique Grebille, Maryvonne Hervieu, and Nicolas Guiblin

Subjects

Magnetic structure, Chemistry, Magnetism, Neutron diffraction, Condensed Matter Physics, Electronic, Optical and Magnetic Materials, Inorganic Chemistry, Crystallography, Charge ordering, Magnetization, Electron diffraction, Materials Chemistry, Ceramics and Composites, Orthorhombic crystal system, Physical and Theoretical Chemistry, Single crystal

Abstract

Magnetic and crystal structures of the manganite Pr 0.8 Ca 0.2 MnO 3 have been studied by neutron powder and single-crystal X-ray diffraction. Structure refinements using single crystal data [orthorhombic system, Pnma , (No. 62), a RT =5.5534(3) A, b RT =7.6548(8) A, c RT =5.4400(5) A, D x =6.422 g cm −3 , R RT =0.029, R w RT =0.038] are consistent with a single domain sample. Structure and atomic displacement parameters exclude any electronic localization, even in a disordered way at 300 and 100 K. Low temperature electron diffraction observations do not show any trace of charge ordering. A Pr contribution to the magnetic structure has been shown with a maximum moment of 0.79 μ B and spins alignments roughly along [101] orientations, at a lower temperature than the ferromagnetic transition observed at 130 K, due to Mn spins ordering.

Published

2004

34. Spin Reorientation Associated with a Structural Transition in the Iron Oxycarbonate Sr4Fe2O6CO3

Author

Antoine Maignan, Ninh Nguyen, Gilles André, Bernard Raveau, Claude Michel, Maryvonne Hervieu, A. Ducouret, Vincent Hardy, F. Bouree, and Yohann Bréard

Subjects

chemistry.chemical_classification, Materials science, General Chemical Engineering, Neutron diffraction, General Chemistry, Polymer, Microstructure, Heat capacity, Magnetic susceptibility, law.invention, Crystallography, chemistry, law, Mössbauer spectroscopy, Materials Chemistry, Electron microscope, Spin (physics)

Abstract

The oxycarbonate Sr 4 Fe 2 O 6 CO 3 has been revisited, using a new synthesis route. Its microstructure has been established by electron microscopy and evidences an orthorhombic-monoclinic distortion at 220 K. The latter is associated with a spin reorientation (7°) visible in magnetic susceptibility, heat capacity, and neutron diffraction studies. To understand the structural transition, particular attention has been paid for the carbonate groups: they adopt a specific orientation within a layer but different in successive layers, which involve disorder along c and order in the (a,b) plane and are at the origin of the unusual broadening of the Mossbauer lines.

Published

2004

35. Structural investigation of Ca2MnO4 by neutron powder diffraction and electron microscopy

Author

C. Autret, C. Martin, B. Raveau, Maryvonne Hervieu, Gilles André, Richard Retoux, and Françoise Bourée

Subjects

Neutron powder diffraction, Chemistry, Neutron diffraction, Condensed Matter Physics, Electronic, Optical and Magnetic Materials, law.invention, Inorganic Chemistry, Crystallography, Tetragonal crystal system, law, Materials Chemistry, Ceramics and Composites, Antiferromagnetism, Orthorhombic crystal system, Physical and Theoretical Chemistry, Electron microscope

Abstract

The first member of the Ruddlesden–Popper family, Ca2MnO4, has been revisited. Coexistence of two structures has been shown from electron microscopy at room temperature and neutron diffraction data have evidenced two antiferromagnetic structures at low temperature. Two forms, with an orthorhombic Aba2 ( a≈b≈a p 2 and c≈12 A) and a tetragonal I41/cad ( a≈a p 2 and c≈24 A) symmetries, were found to coexist coherently within the same matrix.

Published

2004

36. High magnetic field study of charge/polaron ordering in Bi1−xSrxMnO (x⩽0.50) perovskites

Author

J.M. Broto, Michel Goiran, H. Rakoto, José Luis García-Muñoz, AE Carrillo, Carlos Frontera, Johan Vanacken, Maryvonne Hervieu, M. von Ortenberg, A. Kirste, Marc Respaud, Laboratoire National des Champs Magnétiques Pulsés (LNCMP), Centre National de la Recherche Scientifique (CNRS)-Université Toulouse III - Paul Sabatier (UT3), Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées-Institut National des Sciences Appliquées - Toulouse (INSA Toulouse), Institut National des Sciences Appliquées (INSA)-Institut National des Sciences Appliquées (INSA), Institut National des Sciences Appliquées - Toulouse (INSA Toulouse), Institut National des Sciences Appliquées (INSA)-Université de Toulouse (UT)-Institut National des Sciences Appliquées (INSA)-Université de Toulouse (UT)-Université Toulouse III - Paul Sabatier (UT3), and Université de Toulouse (UT)-Centre National de la Recherche Scientifique (CNRS)

Subjects

Physics, Condensed matter physics, Field (physics), Doping, Charge (physics), 02 engineering and technology, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Polaron, Manganite, 01 natural sciences, Electronic, Optical and Magnetic Materials, Magnetic field, [PHYS.COND.CM-S]Physics [physics]/Condensed Matter [cond-mat]/Superconductivity [cond-mat.supr-con], Charge ordering, 0103 physical sciences, Antiferromagnetism, Electrical and Electronic Engineering, 010306 general physics, 0210 nano-technology

Abstract

We present a comparative investigation under field of three Bi1−xSrxMnO3 manganites in the low-doping regime (x⩽0.50). Powdered samples were investigated in pulsed fields up to 35, 50 or 130 T depending on the compound (x=0.25, 0.33, 0.50). Remarkable differences are found in the M(H) curves when comparing the response to the magnetic field of the two different charge-order phases.

Published

2004

37. The route to fullerenoid oxides

Author

S. Boudin, Bernard Raveau, Richard Retoux, Maryvonne Hervieu, and Benjamin Mellène

Subjects

Anions, Photoluminescence, Materials science, Fullerene, Silicon, Ion exchange, Mechanical Engineering, Aluminate, Molecular Conformation, Oxide, chemistry.chemical_element, General Chemistry, Condensed Matter Physics, Molecular sieve, Ion, Oxygen, chemistry.chemical_compound, Crystallography, chemistry, Mechanics of Materials, Aluminum Oxide, Organic chemistry, General Materials Science, Fullerenes, Aluminum

Abstract

Tetrahedral oxides, like silicates and aluminates, have attracted great interest due to their potential for numerous applications in various fields ranging from catalysis, ion exchange and molecular sieves, to thermo- and photoluminescence. In spite of their tetrahedral character, no effort has been made to date for establishing structural relationships between these tetrahedral oxides with different forms of carbon, for example, fullerenes. Here, we report for the first time an oxide that exhibits a three-dimensional framework of AlO4 tetrahedra forming huge 'Al84' spheres, similar to those of the D2d isomer of the C84 fullerenes. These Al84 spheres, displayed in a face-centred-cubic lattice, are easily identified by high-resolution electron microscopy. We also show that this Sr33Bi24+delta Al48O141+3 delta/2 aluminate exhibits an onion-skin-like subnanostructure of its Bi/Sr/O species located inside the Al84 spheres. The role of the original pseudo-spheric anion [Bi16O52-n empty square box n]-with n vacancies (empty square box)-in the stabilization of such a structure is discussed. This structure seems to be promising for the generation of a large family of fullerene-type (fullerenoid) oxides with various properties.

Published

2004

38. From A-type antiferromagnetism to ferromagnetism in half-doped perovskite manganites

Author

Françoise Bourée, Z. Jirák, Antoine Maignan, B. Raveau, Gilles André, C. Martin, Maryvonne Hervieu, and C. Autret

Subjects

Magnetization, Materials science, Condensed matter physics, Ferromagnetism, Magnetism, Electrical resistivity and conductivity, Neutron diffraction, Curie temperature, Antiferromagnetism, Condensed Matter Physics, Electronic, Optical and Magnetic Materials, Perovskite (structure)

Abstract

We have studied by neutron diffraction, resistivity and magnetization measurements the variation of the structural, magnetic and electric properties as a function of the cation size mismatch at the perovskite A-site. The four selected compounds RE0.5AE0.5MnO3, with extremely large A-site cation size 〈rA〉=1.25–1.28 A, correspond to two 〈rA〉 values and for each 〈rA〉, two mismatch values have been retained. This study shows that the decrease of σ2 is an essential factor in stabilization of the ferromagnetism. As a result, the Curie temperature is markedly increased for the samples with smaller σ2, even if they exhibit a complex ferromagnetic/antiferromagnetic phase-separated state at low temperature.

Published

2004

39. Structure, Magnetism, and Transport Properties of Pr1-xSrxMnO3 (x = 0.45−0.75) up to 1200 K

Author

F. Bouree, Bernard Raveau, Maryvonne Hervieu, Karel Knizek, Jiri Hejtmanek, Gilles André, Z. Jirak, and C. Martin

Subjects

Diffraction, Tetragonal crystal system, Paramagnetism, Crystallography, Materials science, Electrical resistivity and conductivity, Magnetism, General Chemical Engineering, Seebeck coefficient, Phase (matter), Materials Chemistry, Orthorhombic crystal system, General Chemistry

Abstract

The perovskite manganites Pr 1-x Sr x MnO 3 in the region 0.45 ≤ x ≤ 0.75 exhibit two crystallographic modifications at room temperature-orthorhombic Ibmm and tetragonal I4/ mcm-with boundary situated at x ∼ 0.48. The high-temperature X-ray diffraction data show that for x ≥ 0.6 the tetragonal phase of I4/mcm symmetry transforms on heating directly to the cubic Pm3m symmetry. On the other hand, for x < 0.6 the I4/mcm phase transforms successively to orthorhombic Ibmm through a two-phase region, then to rhombohedral R3c, and finally to cubic Pm3m. The transient rhombohedral R3c phase is present also for orthorhombic compounds Pr 1-x Sr x MnO 3 with x < 0.48. High-temperature structural transitions are not associated with any observable anomalies in electrical transport and paramagnetic properties while the occurrence of three magnetically ordered phases (FM, A-type and C-type AFM) at low temperature influence resistivity and thermopower essentially.

Published

2004

40. Crystal Chemistry of High-Tc Superconducting Copper Oxides

Author

Bernard Raveau, Claude Michel, Maryvonne Hervieu, Daniel Groult, Bernard Raveau, Claude Michel, Maryvonne Hervieu, and Daniel Groult

Subjects

High temperature superconductors, Copper oxide superconductors

Abstract

The recent discovery of high-temperature superconductivity in copper­ based oxides is an event of major importance not only with respect to the physical phenomenon itself but also because it definitely shows that solid state chemistry, and especially the crystal chemistry of oxides, has a crucial place in the synthesis and understanding of new materials for future appli­ cations. The numerous papers published in the field of high Tc supercon­ ductors in the last five years demonstrate that the great complexity of these materials necessitates a close collaboration between physicists and solid state chemists. This book is based to a large extent on our experience of the crystal chemistry of copper oxides, which we have been studying in the laboratory for more than twelve years, but it also summarizes the main results which have been obtained for these compounds in the last five years relating to their spectacular superconducting properties. We have focused on the struc­ ture, chemical bonding and nonstoichiometry of these materials, bearing in mind that redox reactions are the key to the optimization of their supercon­ ducting properties, owing to the importance of the mixed valence of copper and its Jahn-Teller effect. We have also drawn on studies of extended defects by high-resolution electron microscopy and on their creation by ir­ radiation effects.

Published

2013

41. A magnetic study of the one dimensional Sr $\mathsf{_{3}}$ NiIrO $\mathsf{_{6}}$ compound

Author

Sylvie Hébert, B. Raquet, Antoine Maignan, Delphine Flahaut, Maryvonne Hervieu, Vincent Hardy, C. Martin, J. M. Broto, and M. Costes

Subjects

Materials science, Condensed matter physics, 02 engineering and technology, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, Magnetic susceptibility, Electronic, Optical and Magnetic Materials, Magnetization, Magnetic anisotropy, Nuclear magnetic resonance, Ferrimagnetism, 0103 physical sciences, Antiferromagnetism, Condensed Matter::Strongly Correlated Electrons, Ising model, Hexagonal lattice, 010306 general physics, 0210 nano-technology, Saturation (magnetic)

Abstract

The magnetic properties of a polycrystalline Sr3NiIrO6 sample have been investigated by means of susceptibility and magnetization measurements. On the one hand, it is found that this compound, made of magnetic chains on a triangular lattice, behaves very similarly to Ca3CoRhO6 and Ca3CoIrO6. In particular, at low temperature ( T < T 2 ( = 21 K)), a frozen state, characterized by a very slow spin dynamic, is evidenced. On the other hand, for T 2 < T < T 1 ( = 70 K), this phase exhibits magnetization values, smaller than the expected ones, with a 1/3 plateau reminiscent of the ferrimagnetic state of Ising spins on a triangular lattice. Nonetheless, the absence of saturation in 35 T and the low magnetization values are consistent with an antiferromagnetic intrachain coupling between Ir4+ (S = 1/2) and Ni2+ (S = 1). Sr3NiIrO6 can be viewed as made of antiferromagnetically coupled ferrimagnetic chains on a triangular lattice. On the basis of these results, a magnetic (H, T) phase diagram is proposed.

Published

2003

42. Structural chemistry and magnetic properties of La2LiRuO6

Author

Clare P. Grey, Peter D. Battle, Christine Martin, Caroline A. Moore, Maryvonne Hervieu, and Younkee Paik

Subjects

Magnetic moment, Magnetism, Chemistry, Neutron diffraction, Crystal structure, Nuclear magnetic resonance spectroscopy, Condensed Matter Physics, Electronic, Optical and Magnetic Materials, Inorganic Chemistry, NMR spectra database, Crystallography, Electron diffraction, Materials Chemistry, Ceramics and Composites, Antiferromagnetism, Physical and Theoretical Chemistry

Abstract

The synthesis and characterization of a polycrystalline sample of the n = 2 Ruddlesden−Popper phase Nd2BaLiRuO7 are reported. X-ray and neutron diffraction show that the 6-coordinate sites are occupied by a 1:1 ordered arrangement of Li and Ru, that the 12-coordinate sites within the perovskite-like blocks are occupied by Ba, and that the cation sites on the block edges are occupied by Nd. Transmission electron microscopy shows that this compound is less susceptible to stacking faults then many other n = 2 phases, and 7Li MAS NMR spectroscopy shows that the environment of the single Li site in the structure is well-defined. The compound is an antiferromagnet below 32 K, with ordered magnetic moments of 2.2(2) μB and 2.53(8) μB on the Ru and Nd cations respectively at 2 K.

Published

2003

43. Room temperature magnetoresistance in Ln2/3A1/3MnO3 manganites

Author

B. Raveau, Antoine Maignan, Maryvonne Hervieu, D. Zhu, and Sylvie Hébert

Subjects

Diffusion transport, Materials science, Magnetoresistance, Transition temperature, Diffusion, Materials Chemistry, Analytical chemistry, Mineralogy, General Chemistry, Metal–insulator transition, Condensed Matter Physics

Abstract

The investigation of the manganites La 2/3− x Pr x Sr 1/3 MnO 3 , La 2/3 Sr 1/3− x Ca x MnO 3 and La 2/3+ x Ca 1/3−2 x Ag x MnO 3 , which all exhibit Mn 3+ :Mn 4+ =2, shows that it is possible to reach high magnetoresistance at room temperature, up to 21% under 1.2 T. These materials are compared to La 5/6 Ag 1/6 MnO 3 which corresponds to the same Mn 3+ :Mn 4+ ratio and exhibits a magnetoresistance of 25% in this field. An interesting feature deals with the value of the insulator–metal transition temperature T IM , often higher than T C , especially for Ag-based compounds. It is suggested that the latter results either from a better oxygenation of the surface of the grains or from a migration of silver toward the surface.

Published

2003

44. Magnetoresistance and magnetothermopower properties of Bi/Ca/Co/O and Bi(Pb)/Ca/Co/O misfit layer cobaltites

Author

Antoine Maignan, Sylvie Hébert, Claude Michel, DI Khomskii, Denis Pelloquin, Maryvonne Hervieu, and Faculty of Science and Engineering

Subjects

LARGE NEGATIVE MAGNETORESISTANCE, LA1-XSRXCOO3, Magnetoresistance, Analytical chemistry, TRIANGULAR LATTICE, Mineralogy, SUBSTITUTION, Electronic structure, Atmospheric temperature range, Conductivity, (BI,PB)-SR-CO-O SYSTEM, Condensed Matter Physics, Magnetic susceptibility, Cobaltite, CO, ELECTRONIC-STRUCTURE, chemistry.chemical_compound, chemistry, Electrical resistivity and conductivity, Seebeck coefficient, SINGLE-CRYSTALS, General Materials Science, THERMOELECTRIC PROPERTIES, CONDUCTIVITY

Abstract

Two new compounds of the Bi/Ca/Co/O and Bi(Pb)/Ca/Co/O systems have been prepared. Their structure is built up from the intergrowth of four rock-salt-type layers and one [CoO2] hexagonal layer. Both cobaltites exhibit large thermopower values (S-300 K similar to 140 muV K-1), low resistivity values (rho(300) (K) 40-60 mOmega cm) and small thermal conductivities (kappa(300) (K) similar to I W K-1 m(-1)). Furthermore, these compounds exhibit a negative magnetoresistance, (MR = rho(H)-rho(H=0)/rho(H=0)), reaching, at 2.5 K, -85% in 7 T for the Bi/Ca/Co/O misfit cobaltite. A large negative magnetothermopower is also found for these cobaltites in the same temperature range. A qualitative explanation of the observed behaviour is proposed.

Published

2003

45. Pr0.5Sr0.5-xBaxMnO3: Size and Mismatch Effects on Structural and Magnetic Transitions

Author

C. Autret, Maryvonne Hervieu, C. Martin, Z. Jirak, Antoine Maignan, F. Bouree, Bernard Raveau, and Gilles André

Subjects

Materials science, Condensed matter physics, General Chemical Engineering, Neutron diffraction, General Chemistry, Microstructure, Condensed Matter::Materials Science, Molecular geometry, Ferromagnetism, Electron diffraction, Lattice (order), Materials Chemistry, Antiferromagnetism, Condensed Matter::Strongly Correlated Electrons, Phase diagram

Abstract

The structural and magnetic transitions in the Pr0.5Sr0.5-xBaxMnO3 series have been investigated by neutron diffraction and electron microscopy, in connection with the transport and magnetic properties, allowing a new phase diagram (T, x, or ) to be drawn. Two important points emerge from this study. First, a phase separation is observed for a large part of the diagram, described as a mixture of ferromagnetic, antiferromagnetic, and poorly ordered magnetic phases at low temperature for x > 0.2. Second, A-type antiferromagnetism (AFM) develops in nearly regular perovskite lattice. The case of Pr0.5Ba0.5MnO3 is also discussed because its microstructure is not conventional with local cationic ordering in the random A-site matrix.

Published

2003

46. Structural and magnetic phase diagram and room temperature CMR effect of La1−xAgxMnO3

Author

Antoine Maignan, B. Raveau, C. Martin, Li Pi, and Maryvonne Hervieu

Subjects

Colossal magnetoresistance, Magnetoresistance, Condensed matter physics, Chemistry, General Chemistry, Condensed Matter Physics, Coincidence, Metal, Magnetization, Charge ordering, Ferromagnetism, visual_art, Homogeneity (physics), Materials Chemistry, visual_art.visual_art_medium

Abstract

The study of the structural and magnetic phase diagram of the manganites La1−xAgxMnO3 shows similarity with the La1−x′Srx′MnO3 series, involving a metallic ferromagnetic domain at relatively high temperature (≈300 K). The Ag-system differs from the Sr-one by a much smaller homogeneity range (x≤1/6) and the absence of charge ordering. But the most important feature of the Ag-manganites deals with the exceptionally high magnetoresistance (−25%) at room temperature under 1.2 T, that appears for the composition x=1/6. The latter is interpreted as the coincidence of the optimal double exchange condition (Mn3+:Mn4+=2) with Tmax=300 K (maximum of the ρ(T) curve in zero field).

Published

2003

47. The oxycarbonates Sr4(Fe2−xMnx)1+y(CO3)1−3yO6(1+y): nano, micro and average structural approach

Author

Maryvonne Hervieu, N. Nguyen, B. Raveau, Carine Michel, F. Studer, Françoise Bourée, Yohann Bréard, and Antoine Maignan

Subjects

Magnetic structure, Mössbauer effect, chemistry.chemical_element, Manganese, Condensed Matter Physics, Magnetic susceptibility, XANES, Electronic, Optical and Magnetic Materials, Inorganic Chemistry, Crystallography, Octahedron, Transition metal, chemistry, Materials Chemistry, Ceramics and Composites, Antiferromagnetism, Physical and Theoretical Chemistry

Abstract

The possibility to synthesize layered oxycarbonates, with nominal composition Sr 4 Fe 2− x Mn x O 6 CO 3 involving trivalent manganese, with 0≤ x ≤1.5, is reported for the first time. The structural study of Sr 4 FeMnO 6 CO 3 using NPD, HREM, Mossbauer and XANES, shows that this phase is closely related to n =3 member of the Ruddlesden–Popper family. It derives from the latter by replacing the middle layer of transition metal octahedra by triangular CO 3 groups, with two different “flag” and “coat hanger” configurations. The magnetic order is antiferromagnetic and fundamentally different from the magnetic behavior of Sr 4 Fe 2 O 6 CO 3 .

Published

2003

48. New Type of Charge/Orbital Ordering above Room Temperature in the Perovskite Bi2/3Sr1/3MnO3

Author

Olivier Perez, C. Martin, Přemysl Beran, B. Raveau, Sylvie Malo, Maryvonne Hervieu, and Gianguido Baldinozzi

Subjects

Materials science, General Chemical Engineering, Manganate, Charge (physics), General Chemistry, chemistry.chemical_compound, Charge ordering, Crystallography, chemistry, Electron diffraction, Transmission electron microscopy, Materials Chemistry, Superstructure (condensed matter), Powder diffraction, Perovskite (structure)

Abstract

A new type of charge ordering stable up to T 1 500 K has been evidenced by electron microscopy in the Mn 3+ -rich perovskite Bi 2/3 Sr 1/3 MnO 3 . This new superstructure, based on a Imma-type subcell is characterized by a double modulation with a = 2a p √2, b = 4a p , c = a p √2. X-ray powder diffraction evidences a second structural transition at T 2 580 K and suggests a displacive modulation of the oxygen atoms below T 2 . These results are interpreted as the correlated coexistence of charge-orbital ordering and modulated displacive ordering of oxygen atoms, in the form of double Mn stripes, below 500 K.

Published

2002

49. The n=2 Member of the New Layered Structural Family Ba5+nCa2Mn3+nO3n+14 Derived from the Hexagonal Perovskite: Ba7Ca2Mn5O20

Author

Carine Michel, B. Raveau, N. Floros, and Maryvonne Hervieu

Subjects

Stacking, chemistry.chemical_element, Manganese, Crystal structure, Condensed Matter Physics, Electronic, Optical and Magnetic Materials, Inorganic Chemistry, Crystallography, Octahedron, chemistry, Materials Chemistry, Ceramics and Composites, Tetrahedron, Lamellar structure, Physical and Theoretical Chemistry, Powder diffraction, Perovskite (structure)

Abstract

A new manganese oxide Ba7Ca2Mn5O20, with an original structure derived from the 21 L hexagonal perovskite, has been synthesized and studied by XRPD and HREM. This rhombohedral phase (R 3 m), with a=5.8207(2) A and c=51.359(1) A, consists of [BaO3] (h and c) layers and [BaO2] (c′) layers with a (hhccc′cc)3 stacking sequence. This structure is closely related to that of Ba8Ca1.8Mn6.2O23−δ, containing identical blocks “Ba5Ca2Mn3O14” built up of layers of corner-sharing CaO6 octahedra, MnO6 octahedra and MnO4 tetrahedra. Both oxides can be described as the members n=2 and 3 of the new structural family Ba5+nCa2Mn3+nO3n+14 , which differs from the hexagonal perovskite family by its bidimensional character, due to the disconnection of the MnO4 tetrahedra layers. The charge distribution of manganese, Mn3+/Mn4+ in octahedra and Mn5+ in tetrahedra is a particular feature of this structure.

Published

2002

50. Perovskite manganites and layered cobaltites: potential materials for thermoelectric applications

Author

Christine Martin, Li Pi, Claude Michel, Bernard Raveau, Antoine Maignan, Maryvonne Hervieu, Sylvie Hébert, and Denis Pelloquin

Subjects

Doping, Analytical chemistry, Mineralogy, General Chemistry, Thermoelectric materials, Manganite, Cobaltite, chemistry.chemical_compound, chemistry, Transition metal, Electrical resistivity and conductivity, Seebeck coefficient, Thermoelectric effect, Materials Chemistry

Abstract

Metal-transition oxides are potential materials for thermoelectric devices operating at high temperatures ( T ≫300 K). In particular, compounds exhibiting small resistivity and large Seebeck coefficient are required. Two kinds of oxides have been retained: the ‘misfit’ cobaltites which are p-doped metallic phases and the electron doped perovskite manganites. For the former, it is found that the Ca for Sr substitution enhances the thermopower values in the Pb/Sr/Co/O misfit cobaltite whereas it has only a moderate effect in the case of the Tl/Sr/Co/O phase. From this study, it appears that the oxidation state of Co in the conducting layers plays a crucial role on the physical properties. Moreover, for the manganites, we show that electron-doped SrMnO 3 can be prepared by a two-steps method. The doping, created via substitution at either the A-site (Pr 3+ for Sr 2+ ) or B-site (Mo 6+ for Mn 4+ ), leads to metallic compounds with large thermopower values.

Published

2002