Structure and magnetic properties of LiMVO4 (M = Mn, Cu)

Rukang Li; Colin Greaves

doi:10.1016/j.jssc.2020.121612

Structure and magnetic properties of LiMVO₄ (M = Mn, Cu)

Rukang Li, Colin Greaves^*

^*Corresponding author for this work

Chemistry

Research output: Contribution to journal › Article › peer-review

Abstract

LiM²⁺VO₄ compounds with spinel-related structures show interesting electrochemical, magnetic and multiferroic properties. Neutron powder diffraction data for LiMVO₄ (M = Cu, Mn) were collected at room temperature and 1.5 K. In contrast to single crystal NPD results, no evidence of magnetic ordering was detected for LiCuVO₄ at 1.5 K due to the incommensurate order and low Cu²⁺magnetic moment. For LiMnVO₄ (space group Cmcm) a clear ordered magnetic state was determined for the first time: the chains of edge-shared MnO₆ octahedra have antiferromagnetic (AFM) order within each chain, and also between chains to give C′ centring. The magnetic behaviour of the MnO₆ chain can be well described by the classical one-dimensional Heisenberg model with an intra-chain exchange energy of J/k = −4.32 K. It is believed that direct d_xy − d_xy AFM interactions are dominant over 90° Mn–O–Mn exchange for determining the magnetic order.

Original language	English
Article number	121612
Journal	Journal of Solid State Chemistry
Volume	291
DOIs	https://doi.org/10.1016/j.jssc.2020.121612
Publication status	Published - Nov 2020

Keywords

1D magnetic chains
Magnetic structure LiMnVO4
Magnetic susceptibility
Neutron powder Diffraction
Structure of LiCuVO4, LiMnVO4

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Ceramics and Composites
Condensed Matter Physics
Physical and Theoretical Chemistry
Inorganic Chemistry
Materials Chemistry

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10.1016/j.jssc.2020.121612

Cite this

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title = "Structure and magnetic properties of LiMVO4 (M = Mn, Cu)",

abstract = "LiM2+VO4 compounds with spinel-related structures show interesting electrochemical, magnetic and multiferroic properties. Neutron powder diffraction data for LiMVO4 (M = Cu, Mn) were collected at room temperature and 1.5 K. In contrast to single crystal NPD results, no evidence of magnetic ordering was detected for LiCuVO4 at 1.5 K due to the incommensurate order and low Cu2+magnetic moment. For LiMnVO4 (space group Cmcm) a clear ordered magnetic state was determined for the first time: the chains of edge-shared MnO6 octahedra have antiferromagnetic (AFM) order within each chain, and also between chains to give C′ centring. The magnetic behaviour of the MnO6 chain can be well described by the classical one-dimensional Heisenberg model with an intra-chain exchange energy of J/k = −4.32 K. It is believed that direct dxy − dxy AFM interactions are dominant over 90° Mn–O–Mn exchange for determining the magnetic order.",

keywords = "1D magnetic chains, Magnetic structure LiMnVO4, Magnetic susceptibility, Neutron powder Diffraction, Structure of LiCuVO4, LiMnVO4",

author = "Rukang Li and Colin Greaves",

year = "2020",

month = nov,

doi = "10.1016/j.jssc.2020.121612",

language = "English",

volume = "291",

journal = "Journal of Solid State Chemistry",

issn = "0022-4596",

publisher = "Elsevier",

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T1 - Structure and magnetic properties of LiMVO4 (M = Mn, Cu)

AU - Li, Rukang

AU - Greaves, Colin

PY - 2020/11

Y1 - 2020/11

N2 - LiM2+VO4 compounds with spinel-related structures show interesting electrochemical, magnetic and multiferroic properties. Neutron powder diffraction data for LiMVO4 (M = Cu, Mn) were collected at room temperature and 1.5 K. In contrast to single crystal NPD results, no evidence of magnetic ordering was detected for LiCuVO4 at 1.5 K due to the incommensurate order and low Cu2+magnetic moment. For LiMnVO4 (space group Cmcm) a clear ordered magnetic state was determined for the first time: the chains of edge-shared MnO6 octahedra have antiferromagnetic (AFM) order within each chain, and also between chains to give C′ centring. The magnetic behaviour of the MnO6 chain can be well described by the classical one-dimensional Heisenberg model with an intra-chain exchange energy of J/k = −4.32 K. It is believed that direct dxy − dxy AFM interactions are dominant over 90° Mn–O–Mn exchange for determining the magnetic order.

AB - LiM2+VO4 compounds with spinel-related structures show interesting electrochemical, magnetic and multiferroic properties. Neutron powder diffraction data for LiMVO4 (M = Cu, Mn) were collected at room temperature and 1.5 K. In contrast to single crystal NPD results, no evidence of magnetic ordering was detected for LiCuVO4 at 1.5 K due to the incommensurate order and low Cu2+magnetic moment. For LiMnVO4 (space group Cmcm) a clear ordered magnetic state was determined for the first time: the chains of edge-shared MnO6 octahedra have antiferromagnetic (AFM) order within each chain, and also between chains to give C′ centring. The magnetic behaviour of the MnO6 chain can be well described by the classical one-dimensional Heisenberg model with an intra-chain exchange energy of J/k = −4.32 K. It is believed that direct dxy − dxy AFM interactions are dominant over 90° Mn–O–Mn exchange for determining the magnetic order.

KW - 1D magnetic chains

KW - Magnetic structure LiMnVO4

KW - Magnetic susceptibility

KW - Neutron powder Diffraction

KW - Structure of LiCuVO4, LiMnVO4

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