Crystal and Magnetic Structure Transitions in BiMnO3+δ Ceramics Driven by Cation Vacancies and Temperature

The crystal structure of BiMnO3+δ ceramics has been studied as a function of nominal oxygen excess and temperature using synchrotron and neutron powder diffraction, magnetometry and differential scanning calorimetry. Increase in oxygen excess leads to the structural transformations from the monoclinic structure (C2/c) to another monoclinic (P21/c), and then to the orthorhombic (Pnma) structure through the two-phase regions. The sequence of the structural transformations is accompanied by a modification of the orbital ordering followed by its disruption. Modification of the orbital order leads to a rearrangement of the magnetic structure of the compounds from the long-range ferromagnetic to a mixed magnetic state with antiferromagnetic clusters coexistent in a ferromagnetic matrix followed by a frustration of the long-range magnetic order. Temperature increase causes the structural transition to the nonpolar orthorhombic phase regardless of the structural state at room temperature; the orbital order is destroyed in compounds BiMnO3+δ (δ ≤ 0.14) at temperatures above 470 °C.

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LONG–RANGE MAGNETIC ORDER IN La2NiO4+δ UNDER SMALL OXYGEN EXCESS

International Journal of Modern Physics B ◽

10.1142/s0217979293000408 ◽

1993 ◽

Vol 07 (01n03) ◽

pp. 178-181

Author(s):

YURY G. POGORELOV

Keyword(s):

Long Range ◽

Continuum Model ◽

Magnetic Order ◽

Oxide Compound ◽

Range Magnetic Order ◽

Magnetic Symmetry ◽

Oxygen Excess ◽

The Stability ◽

Effect Of Oxygen ◽

Long Range Magnetic Order

Within a continuum model based on the microscopic magnetic symmetry of Ni 2+ ion (spin S = 1) in the metal-oxide compound La 2 NiO 4+δ, a theoretical analysis is made of the stability of antiferromagnetic long-range order under the effect of oxygen interstitials at δ ≪ 1. It is shown that the Néel temperature dicreases significantly with growing δ though does not become zero, in contrast to that in the structurally isomorhic compound La 2 CuO 4+δ (but Cu 2+ spin S = 1/2).

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Superconductivity and long range magnetic order in ternary rare earth transition metal borides

10.31274/rtd-180813-7960 ◽

1982 ◽

Author(s):

Herng-Er Horng

Keyword(s):

Rare Earth ◽

Transition Metal ◽

Long Range ◽

Magnetic Order ◽

Range Magnetic Order ◽

Metal Borides ◽

Long Range Magnetic Order

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Calorimetric Studies of Octacyanometalate-based Coordination Polymers Displaying Long-range Magnetic Order

Current Inorganic Chemistry ◽

10.2174/1877944104666140825194745 ◽

2014 ◽

Vol 4 (3) ◽

pp. 146-166 ◽

Cited By ~ 3

Author(s):

Robert Pel.ka

Keyword(s):

Long Range ◽

Coordination Polymers ◽

Magnetic Order ◽

Range Magnetic Order ◽

Calorimetric Studies ◽

Long Range Magnetic Order

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Emergent long-range magnetic order in ultrathin (111)-oriented LaNiO3 films

npj Quantum Materials ◽

10.1038/s41535-021-00345-2 ◽

2021 ◽

Vol 6 (1) ◽

Author(s):

Margaret M. Kane ◽

Arturas Vailionis ◽

Lauren J. Riddiford ◽

Apurva Mehta ◽

Alpha T. N’Diaye ◽

...

Keyword(s):

Long Range ◽

Degrees Of Freedom ◽

Magnetic Order ◽

Magnetic Ordering ◽

Anomalous Hall Effect ◽

X Ray Diffraction ◽

X Ray ◽

Range Magnetic Order ◽

Film Substrate ◽

Long Range Magnetic Order

AbstractThe emergence of ferromagnetism in materials where the bulk phase does not show any magnetic order demonstrates that atomically precise films can stabilize distinct ground states and expands the phase space for the discovery of materials. Here, the emergence of long-range magnetic order is reported in ultrathin (111) LaNiO3 (LNO) films, where bulk LNO is paramagnetic, and the origins of this phase are explained. Transport and structural studies of LNO(111) films indicate that NiO6 octahedral distortions stabilize a magnetic insulating phase at the film/substrate interface and result in a thickness-dependent metal–insulator transition at t = 8 unit cells. Away from this interface, distortions relax and bulk-like conduction is regained. Synchrotron x-ray diffraction and dynamical x-ray diffraction simulations confirm a corresponding out-of-plane unit-cell expansion at the interface of all films. X-ray absorption spectroscopy reveals that distortion stabilizes an increased concentration of Ni2+ ions. Evidence of long-range magnetic order is found in anomalous Hall effect and magnetoresistance measurements, likely due to ferromagnetic superexchange interactions among Ni2+–Ni3+ ions. Together, these results indicate that long-range magnetic ordering and metallicity in LNO(111) films emerges from a balance among the spin, charge, lattice, and orbital degrees of freedom.

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GDC - Y 2 O 3 Oxide Based Two Phase Nanocomposite Electrolyte

Journal of Fuel Cell Science and Technology ◽

10.1115/1.4003634 ◽

2011 ◽

Vol 8 (4) ◽

Cited By ~ 6

Author(s):

Rizwan Raza ◽

Ghazanfar Abbas ◽

S. Khalid Imran ◽

Imran Patel ◽

Bin Zhu

Keyword(s):

Fuel Cell ◽

Ionic Conductivities ◽

Morphological Properties ◽

Scanning Calorimetry ◽

Two Phase ◽

Composite Electrolyte ◽

Significant Performance ◽

Advanced Fuel ◽

Nanocomposite Electrolyte ◽

Scherrer Formula

Oxide based two phase composite electrolyte (Ce0.9Gd0.1O2–Y2O3) was synthesized by coprecipitation method. The nanocomposite electrolyte showed the significant performance of power density 785 mW cm−2 and higher conductivities at relatively low temperature 550°C. Ionic conductivities were measured with ac impedance spectroscopy and four-probe dc method. The structural and morphological properties of the prepared electrolyte were investigated by scanning electron microscope (SEM). The thermal stability was determined with differential scanning calorimetry. The particle size that was calculated with Scherrer formula, 15–20 nm, is in a good agreement with the SEM and X- ray diffraction results. The purpose of this study is to introduce the functional nanocomposite materials for advanced fuel cell technology to meet the challenges of solid oxide fuel cell.

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