Charge-orbital Ordering, Magnetic State, and Exchange Couplings in Quasi-One-Dimensional Vanadate V6O13

Leonov, I.

doi:10.1134/s0021364022602524

Cited by 3 publications

(1 citation statement)

References 82 publications

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“…The vanadium oxides in the Wadsley homologous series V n O 2 n +1 between α-V 2 O 5 ( Pmmn , Z = 2) and VO 2 (B) ( C 2/ m , Z = 8) undergo a MIT accompanied by orbital ordering. − Their crystal structures could be derived from the structure of VO x ( Fm m , Z = 4), where x ≈ 1 . The mixed-valence oxide V 6 O 13 ( C 2/ m , Z = 2) is composed of single and double layers formed by edge- and corner-sharing distorted VO 6 octahedra .…”

Section: Introductionmentioning

confidence: 99%

Structures, Phase Stability, Amorphization, and Decomposition of V₆O₁₃ at High Pressures and Temperatures: Synthesis of Rutile-Related V_0.92O₂

Grzechnik,

Hakala,

Kurig

et al. 2024

Crystal Growth & Design

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The stability of mixed-valence V 6 O 13 at high pressures and high temperatures is studied experimentally in multianvil presses both ex situ and in situ using synchrotron energy-dispersive powder diffraction. V 6 O 13 starts to amorphize and decomposes above 18.5 GPa at room temperature. It transforms to rutile-related V 0.92 O 2 above 500 K in the pressure range up to about 15−17.5 GPa. The crystal structure of this new phase (C12/m1, Z = 4) was determined from laboratory single-crystal and powder X-ray diffraction data measured on single crystals grown at 10 GPa and 1373 K. The characteristic feature is the presence of two zigzag V− V chains. One of them has equidistant V atoms, while the other is with short and long V−V distances. In the average-ordered structure (P2/m, Z = 2), both V−V chains are linear and equidistant. The M2 polymorph of VO 2 is considered to be the ordered (though distorted) variant of V 0.92 O 2 . The experiments are complemented by density functional theory calculations and global explorations of the energy landscape of V 6 O 13 and V 0.92 O 2 compounds at high pressures using a multimethodological approach to construct and predict feasible structures.

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Section: Introductionmentioning

confidence: 99%

Structures, Phase Stability, Amorphization, and Decomposition of V₆O₁₃ at High Pressures and Temperatures: Synthesis of Rutile-Related V_0.92O₂

Grzechnik,

Hakala,

Kurig

et al. 2024

Crystal Growth & Design

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Polarons and Charge Transfer in FeCr2O4 Chromite Treated by the DFT + U Method

Fominykh

Stegaĭlov

2023

Jetp Lett.

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Polarons and Charge Transfer in FeCr2O4 Chromite Treated by the DFT + U Method

Fominykh,

Stegaylov

2023

Pisʹma v žurnal êksperimentalʹnoj i teoretičeskoj fiziki

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The electronic structure of chromite (FeCr2O4 spinel) is described and the orbital ordering, band gap, and charge transfer are analyzed consistently in the framework of density functional theory taking into account strong electron correlations (DFT + U method). It is shown that the top of the chromite valence band in this model is formed by the ordered t2g orbitals of iron atoms located at tetrahedral sites, and the formation of hole polarons occurs involving just these orbitals. The nonadiabatic activation barrier determining the hole polaron transport is considered. The results of calculations of the band gap and activation energy are compared to the available experimental data.

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Charge-orbital Ordering, Magnetic State, and Exchange Couplings in Quasi-One-Dimensional Vanadate V6O13

Cited by 3 publications

References 82 publications

Structures, Phase Stability, Amorphization, and Decomposition of V₆O₁₃ at High Pressures and Temperatures: Synthesis of Rutile-Related V_0.92O₂

Structures, Phase Stability, Amorphization, and Decomposition of V₆O₁₃ at High Pressures and Temperatures: Synthesis of Rutile-Related V_0.92O₂

Polarons and Charge Transfer in FeCr2O4 Chromite Treated by the DFT + U Method

Polarons and Charge Transfer in FeCr2O4 Chromite Treated by the DFT + U Method

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Charge-orbital Ordering, Magnetic State, and Exchange Couplings in Quasi-One-Dimensional Vanadate V6O13

Cited by 3 publications

References 82 publications

Structures, Phase Stability, Amorphization, and Decomposition of V6O13 at High Pressures and Temperatures: Synthesis of Rutile-Related V0.92O2

Structures, Phase Stability, Amorphization, and Decomposition of V6O13 at High Pressures and Temperatures: Synthesis of Rutile-Related V0.92O2

Polarons and Charge Transfer in FeCr2O4 Chromite Treated by the DFT + U Method

Polarons and Charge Transfer in FeCr2O4 Chromite Treated by the DFT + U Method

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Product

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Structures, Phase Stability, Amorphization, and Decomposition of V₆O₁₃ at High Pressures and Temperatures: Synthesis of Rutile-Related V_0.92O₂

Structures, Phase Stability, Amorphization, and Decomposition of V₆O₁₃ at High Pressures and Temperatures: Synthesis of Rutile-Related V_0.92O₂