Synthesis, structure and magnetic properties of honeycomb-layered LiCoSbO with new data on its sodium precursor, NaCoSbO

Li 3 Co 2 SbO 6 is prepared by molten salt ion exchange and its structure refined by the Rietveld method confirming the honeycomb-type Co/Sb ordering of its Na precursor. Monoclinic rather than trigonal symmetry of Na 3 Co 2 SbO 6 is directly demonstrated for the first time by peak splitting in the...

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Veröffentlicht in:New journal of chemistry 2019-08, Vol.43 (34), p.13545-13553
Hauptverfasser: Stratan, Mikhail I, Shukaev, Igor L, Vasilchikova, Tatyana M, Vasiliev, Alexander N, Korshunov, Artem N, Kurbakov, Alexander I, Nalbandyan, Vladimir B, Zvereva, Elena A
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container_end_page 13553
container_issue 34
container_start_page 13545
container_title New journal of chemistry
container_volume 43
creator Stratan, Mikhail I
Shukaev, Igor L
Vasilchikova, Tatyana M
Vasiliev, Alexander N
Korshunov, Artem N
Kurbakov, Alexander I
Nalbandyan, Vladimir B
Zvereva, Elena A
description Li 3 Co 2 SbO 6 is prepared by molten salt ion exchange and its structure refined by the Rietveld method confirming the honeycomb-type Co/Sb ordering of its Na precursor. Monoclinic rather than trigonal symmetry of Na 3 Co 2 SbO 6 is directly demonstrated for the first time by peak splitting in the high-resolution synchrotron XRD pattern. The long-range antiferromagnetic order is established at T N 6.7 K and 9.9 K in Na 3 Co 2 SbO 6 and Li 3 Co 2 SbO 6 , respectively, confirmed by both the magnetic susceptibility and specific heat. Spin-wave analysis of specific heat data indicates the presence of 3D AFM magnons in Na 3 Co 2 SbO 6 and 2D AFM magnons in Li 3 Co 2 SbO 6 . The field dependence of the magnetization almost reaches saturation in moderate magnetic fields up to 9 T and demonstrates characteristic features of magnetic field induced spin-reorientation transitions for both A 3 Co 2 SbO 6 (A = Na, Li). Overall thermodynamic studies show that the magnetic properties of both compounds are very sensitive to an external magnetic field, thus predicting a non-trivial ground state with a rich magnetic phase diagram. The ground state spin configuration of Li 3 Co 2 SbO 6 has been determined by low-temperature neutron powder diffraction. It represents a ferromagnetic arrangement of moments in the honeycomb layers with antiferromagnetic coupling between adjacent layers. Crystallographic and magnetic properties of new layered honeycomb-lattice Li 3 Co 2 SbO 6 antimonate were studied and compared with its sodium precursor Na 3 Co 2 SbO 6 .
doi_str_mv 10.1039/c9nj03627j
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Monoclinic rather than trigonal symmetry of Na 3 Co 2 SbO 6 is directly demonstrated for the first time by peak splitting in the high-resolution synchrotron XRD pattern. The long-range antiferromagnetic order is established at T N 6.7 K and 9.9 K in Na 3 Co 2 SbO 6 and Li 3 Co 2 SbO 6 , respectively, confirmed by both the magnetic susceptibility and specific heat. Spin-wave analysis of specific heat data indicates the presence of 3D AFM magnons in Na 3 Co 2 SbO 6 and 2D AFM magnons in Li 3 Co 2 SbO 6 . The field dependence of the magnetization almost reaches saturation in moderate magnetic fields up to 9 T and demonstrates characteristic features of magnetic field induced spin-reorientation transitions for both A 3 Co 2 SbO 6 (A = Na, Li). Overall thermodynamic studies show that the magnetic properties of both compounds are very sensitive to an external magnetic field, thus predicting a non-trivial ground state with a rich magnetic phase diagram. The ground state spin configuration of Li 3 Co 2 SbO 6 has been determined by low-temperature neutron powder diffraction. It represents a ferromagnetic arrangement of moments in the honeycomb layers with antiferromagnetic coupling between adjacent layers. 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title Synthesis, structure and magnetic properties of honeycomb-layered LiCoSbO with new data on its sodium precursor, NaCoSbO
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