A new layered triangular antiferromagnet Li<sub>4</sub>FeSbO<sub>6</sub>: spin order, field-induced transitions and anomalous critical behavior

Zvereva, E.A.; Savelieva, O. A.; Titov, Ya. D.; Evstigneeva, M. A.; Nalbandyan, V. B.; Kao, Cheng Nan; Lin, Jiunn Yuan; Presniakov, Igor A.; Sobolev, A. V.; Ibragimov, Sergey A.; Abdel-Hafiez, M.; Krupskaya, Yu. V.; Jähne, C.; Tan, Guang; Klingeler, R.; Büchner, B.; Vasiliev, A. N.

doi:10.1039/c2dt31938a

Cited by 54 publications

(77 citation statements)

References 73 publications

(123 reference statements)

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“…1). Many other aNaFeO 2 superstructures including Li 4 FeSbO 6 [28] are monoclinic (C2/m), although each individual layer is essentially trigonal. Thus the crystal structure of Na 4 FeSbO 6 may well be monoclinic, so we consider two monoclinic structures C2 and C2/m in addition to the P3 1 12 structure (Fig.…”

Section: Crystal Structurementioning

confidence: 98%

“…With h = -17 K and T N = 3.6 K, Li 4 FeSbO 6 has f = 4.7, so the spin frustrations arising from the triangular spin lattice are not strong enough to prevent a long-range AFM ordering. Since Na 4 FeSbO 6 [27] is structurally analogous to Li 4 FeSbO 6 [28], one would expect Na 4 FeSbO 6 and Li 4 FeSbO 6 to possess similar magnetic properties. In contrast, our experimental and theoretical investigations show that Na 4 FeSbO 6 has antisite disorders between the Fe 3?…”

Section: Introductionmentioning

confidence: 95%

“…The present work is concerned with the antisite disorder in the layered oxide Na 4 FeSbO 6 [27]. Na 4 FeSbO 6 [27] is structurally quite similar to the layered oxide Li 4 FeSbO 6 [28], in which the (LiFeSbO 6 ) 3-layers parallel to the ab-plane alternate with layers of Li ? ions along the c-direction.…”

Section: Introductionmentioning

confidence: 99%

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Crucial Role of Site Disorder and Frustration in Unusual Magnetic Properties of Quasi-2D Triangular Lattice Antimonate Na4FeSbO6

et al. 2015

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The effect of antisite disorder in the layered sodium iron antimonate Na 4 FeSbO 6 was examined both experimentally and theoretically. The magnetic susceptibility and specific heat measurements show that Na 4 FeSbO 6 does not undergo a long-range antiferromagnetic order, unlike its structural analog Li 4 FeSbO 6 . The electron spin resonance yields the complicated picture of coexistence of two magnetic subsystems corresponding to two different Fe cation positions in the lattice (regular and antisite) and driving the magnetic properties of the Na 4 FeSbO 6 . This conclusion found perfect confirmation from both the Mössbauer and X-ray absorption data which

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Section: Crystal Structurementioning

confidence: 98%

Section: Introductionmentioning

confidence: 95%

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Crucial Role of Site Disorder and Frustration in Unusual Magnetic Properties of Quasi-2D Triangular Lattice Antimonate Na4FeSbO6

et al. 2015

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“…S3). It is worth to mention that the spin-reorientation-type transitions have been reported recently for several related antimonates: for example, Na 3 Co 2 SbO 6 [61], Li 3 Ni 2 SbO 6 [63], Na 3 Ni 2 SbO 6 [76], Li 4 FeSbO 6 [67]. …”

Section: B Magnetic Susceptibility and Magnetizationmentioning

confidence: 99%

“…The theory for octahedral field predicts that the EPR spectrum from high-spin Co 2+ may be observed mainly at low temperatures because of spin-lattice relaxation time is extremely short for octahedral coordination of Co 2+ , while at high temperature spectra are usually undetectable to its strong broadening. The expected effective gfactor for high-spin Co 2+ is 4.3 in ideal oxygen octahedral environment [67,68] or takes lower value in distorted octahedral coordination. Below certain characteristic temperature T SRO both g-factor and the linewidth increase progressively upon lowering of the temperature and reveal clear anomalies in the vicinity of Néel temperature.…”

Section: Esr Spectramentioning

confidence: 99%

Orbitally induced hierarchy of exchange interactions in the zigzag antiferromagnetic state of honeycomb silver delafossite Ag₃Co₂SbO₆

et al. 2016

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We report the revised crystal structure, static and dynamic magnetic properties of quasi-two dimensional honeycomb-lattice silver delafossite Ag 3 Co 2 SbO 6 . The magnetic susceptibility and specific heat data are consistent with the onset of antiferromagnetic long range order at low temperatures with Néel temperature T N ~ 21.2 K. In addition, the magnetization curves revealed a field-induced (spin-flop type) transition below T N in moderate magnetic fields. The GGA+U calculations show the importance of the orbital degrees of freedom, which maintain a hierarchy of exchange interaction in the system. The strongest antiferromagnetic exchange coupling was found in the shortest Co-Co pairs and is due to direct and superexchange interactions between the half-filled xz+yz orbitals pointing directly to each other. The other four out of six nearest neighbor exchanges within the cobalt hexagon are suppressed, since for these bonds active half-filled orbitals turned out to be parallel and do not overlap. The electron spin resonance (ESR) spectra reveal a Gaussian shape line attributed to Co 2+ ion in octahedral coordination with average effective g-factor g=2.3±0.1 at room temperature and shows strong divergence of ESR parameters below ~ 120 K, which imply an extended region of short-range correlations. Based on the results of magnetic and thermodynamic studies in applied fields, we propose the magnetic phase diagram for the new honeycomb-lattice delafossite.

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Structural Diversity in Complex Layered Oxides

Uma

2017

Handbook of Solid State Chemistry

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This chapter gives a review of complex layered oxides, comprising of their structures, inherent properties, and applications. It introduces the concepts related to layering along with their classifications. This is followed by a description of unique topochemical reactions that are characteristic of layered arrangement. In order to comprehend the subject of complex layered oxides, it is also beneficial to study them under the various structural families as has been the practice adopted in the literature. The chapter also details the various families of layered oxides and their characteristics. The significance associated with layered materials is their ability to undergo topochemical reactions at low temperatures (<500 °C). This particular approach commonly referred to as the chimie douce referring to the soft chemistry methods suggests a definite structural relationship between the reactants and the products.

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A new layered triangular antiferromagnet Li₄FeSbO₆: spin order, field-induced transitions and anomalous critical behavior

Cited by 54 publications

References 73 publications

Crucial Role of Site Disorder and Frustration in Unusual Magnetic Properties of Quasi-2D Triangular Lattice Antimonate Na4FeSbO6

Crucial Role of Site Disorder and Frustration in Unusual Magnetic Properties of Quasi-2D Triangular Lattice Antimonate Na4FeSbO6

Orbitally induced hierarchy of exchange interactions in the zigzag antiferromagnetic state of honeycomb silver delafossite Ag₃Co₂SbO₆

Structural Diversity in Complex Layered Oxides

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A new layered triangular antiferromagnet Li4FeSbO6: spin order, field-induced transitions and anomalous critical behavior

Cited by 54 publications

References 73 publications

Crucial Role of Site Disorder and Frustration in Unusual Magnetic Properties of Quasi-2D Triangular Lattice Antimonate Na4FeSbO6

Crucial Role of Site Disorder and Frustration in Unusual Magnetic Properties of Quasi-2D Triangular Lattice Antimonate Na4FeSbO6

Orbitally induced hierarchy of exchange interactions in the zigzag antiferromagnetic state of honeycomb silver delafossite Ag3Co2SbO6

Structural Diversity in Complex Layered Oxides

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Product

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A new layered triangular antiferromagnet Li₄FeSbO₆: spin order, field-induced transitions and anomalous critical behavior

Orbitally induced hierarchy of exchange interactions in the zigzag antiferromagnetic state of honeycomb silver delafossite Ag₃Co₂SbO₆