Synthesis, Structures, and Magnetic Properties of Rare-Earth Cobalt Arsenides, RCo<sub>2</sub>As<sub>2</sub> (R = La, Ce, Pr, Nd)

Thompson, Corey M.; Tan, Xiaoyan; Kovnir, Kirill; Garlea, V. Ovidiu; Gippius, A. A.; Yaroslavtsev, Alexander; Менушенков, А. П.; Chernikov, Roman; Büttgen, N.; Krätschmer, Wolfgang; Zubavichus, Yan V.; Shatruk, Michael

doi:10.1021/cm501522v

Cited by 37 publications

(48 citation statements)

References 51 publications

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“…This assumption is further supported by properties of the later members of R2Co12As7 series. It is also in agreement with our findings of AFM 4f-3d coupling in RCo2P2 and RCo2As2 structures with early lanthanides [25,26,33].…”

Section: R2co12as7 (R = Tb Dy) Both Tb2co12as7 and Dy2co12as7show Vsupporting

confidence: 93%

“…Such behavior is characteristic of AFM coupling between the R 4f and Co 3d magnetic moments, suggesting the ferrimagnetic (FiM) ground state for these materials. This finding is also in accord with the FiM behavior reported for Pr2Co12P7 and Nd2Co12P7 [13], as well as for PrCo2As2 and NdCo2As2 [33]. The AFM 4f-3d coupling is well illustrated by the magnetization isotherms recorded for Nd2Co12As7 at different temperatures (Fig.…”

Section: Magnetic Propertiessupporting

confidence: 91%

“…In an attempt to find alternative pathways to single crystals of R-Co arsenides, we have recently reported the use of molten Bi as an effective reaction medium for the crystal growth of RCo2As2 (R = La, Ce, Pr, Nd) [32,33]. Furthermore, this method afforded phase-pure bulk materials, thus allowing physical characterization to be carried out on both powder and single-crystal samples.…”

Section: Introductionmentioning

confidence: 99%

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Synthesis, crystal structure, and magnetism of A2Co12As7 (A=Ca, Y, Ce–Yb)

Tan

Garlea

Chai

et al. 2016

Journal of Solid State Chemistry

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Ternary intermetallics, A2Co12As7 (A = Ca, Y, Ce-Yb), have been synthesized by annealing mixtures of elements in molten Bi at 1223 K. The materials obtained crystallize in the P63/m variant of the Zr2Fe12P7 structure type. The unit cell volume shows a monotonic decrease with the increasing atomic number of the rare-earth metal, with the exception of Ce-, Eu-, and Yb-containing compounds. An examination of these outliers with X-ray absorption near edge structures (XANES) spectroscopy revealed mixed valence of Ce, Eu, and Yb, with the average oxidation states of +3.20(1), +2.47(5), and +2.91(1), respectively, at room temperature. Magnetic behavior of A2Co12As7 is generally characterized by ferromagnetic ordering of Co 3d moments at 100-140 K, followed by low-temperature ordering of rare-earth 4f moments. The 3d-4f magnetic coupling changes from antiferromagnetic for A = Pr-Sm to ferromagnetic for A = Ce and Eu-Yb. Polarized neutron scattering experiments were performed to support the postulated ferro-and ferrimagnetic ground states for Ce2Co12As7 and Nd2Co12As7, respectively.Reactions in molten metal fluxes remain somewhat underused in the syntheses of R-T intermetallics, which are dominated by arc-melting and direct annealing techniques. Nevertheless, the use of various molten metals as reaction media has been steadily expanding, with the increased understanding that this method not only offers access to new materials, but also affords lower reaction temperatures and highquality single crystals for physical property measurements [9].

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Section: R2co12as7 (R = Tb Dy) Both Tb2co12as7 and Dy2co12as7show Vsupporting

confidence: 93%

Section: Magnetic Propertiessupporting

confidence: 91%

Section: Introductionmentioning

confidence: 99%

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Synthesis, crystal structure, and magnetism of A2Co12As7 (A=Ca, Y, Ce–Yb)

Tan

Garlea

Chai

et al. 2016

Journal of Solid State Chemistry

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“…This is further evidence that the magnetic moments prefer to align along a-axis. Similar lowered remanent magnetization and larger coercivity when the field is applied perpendicular to the easy axis of magnetization was also observed for Ce 0.95 Bi 0.05 Co 1.85 As 2 [33]. …”

Section: Magnetic Propertiessupporting

confidence: 76%

Nd8Co4−Al Ge2C3: A case study in flux growth of lanthanide-rich intermetallics

Zhou

Latturner

2016

Journal of Solid State Chemistry

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The intermetallic Nd 8 Co 4-x Al x Ge 2 C 3 (x ≈ 0.65) was prepared from reaction of germanium and carbon in Nd/Co eutectic flux in an alumina crucible. This phase exhibits a new structure type in orthorhombic space group Pbcm, with unit cell parameters a = 8.001(1) Å, b = 11.696 (2) Å, c = 15.020(3) Å (Z = 4; R 1 = 0.0234). The structure features germanium-centered neodymium clusters Ge@Nd 9 which share faces to form layers separated by zigzag chains of cobalt atoms capped by carbon. Density of states calculations confirm that this compound is metallic, and indicate that the cobalt should not have a magnetic moment. This is supported by magnetic susceptibility measurements which show a low temperature ferromagnetic ordering at T C = 50 K due to the Nd 3+ ions. Magnetization field dependence studies on single crystals indicate this compound is a strong ferromagnet with large anisotropy; the Nd 3+ magnetic moments align along the a-axis.

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“…When switching to isostructural arsenides, tin flux failed to produce any RCo 2 As 2 phases. Instead Bi flux was successfully applied (Thompson et al, 2011(Thompson et al, , 2014bTan et al, 2016aTan et al, , 2018. Detailed structural characterizations revealed that Bi is capable of partially replacing R 3+ cations, probably due to its trivalent nature (Thompson et al, 2011).…”

Section: Ba 3 CD 2 As 4 In Pb Fluxmentioning

confidence: 99%

Flux Growth of Phosphide and Arsenide Crystals

2020

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Flux crystal growth has been widely applied to explore new phases and grow crystals of emerging materials. To accommodate the needs of high-quality single crystals, the flux crystal growth should be reliable, controllable, and predictable. The selections of suitable flux and growth conditions remain empirical due to the lack of systematic investigation especially for reactions, which involve highly volatile components, such as P and As. Considering the flux elements, often the system in question is a quaternary or a higher multinary system, which drastically increases complexity. In this manuscript, on the examples of flux growth of phosphides and arsenides, guidelines of flux selections, existing challenges, and future directions are discussed. We expect that the field will be further developed by applying in situ techniques and computational modeling of the nucleation and growth kinetics. Additionally, leveraging variables other than temperature, such as applied pressure, will make flux growth a more powerful tool in the future.

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Synthesis, Structures, and Magnetic Properties of Rare-Earth Cobalt Arsenides, RCo₂As₂ (R = La, Ce, Pr, Nd)

Cited by 37 publications

References 51 publications

Synthesis, crystal structure, and magnetism of A2Co12As7 (A=Ca, Y, Ce–Yb)

Synthesis, crystal structure, and magnetism of A2Co12As7 (A=Ca, Y, Ce–Yb)

Nd8Co4−Al Ge2C3: A case study in flux growth of lanthanide-rich intermetallics

Flux Growth of Phosphide and Arsenide Crystals

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Synthesis, Structures, and Magnetic Properties of Rare-Earth Cobalt Arsenides, RCo2As2 (R = La, Ce, Pr, Nd)

Cited by 37 publications

References 51 publications

Synthesis, crystal structure, and magnetism of A2Co12As7 (A=Ca, Y, Ce–Yb)

Synthesis, crystal structure, and magnetism of A2Co12As7 (A=Ca, Y, Ce–Yb)

Nd8Co4−Al Ge2C3: A case study in flux growth of lanthanide-rich intermetallics

Flux Growth of Phosphide and Arsenide Crystals

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Synthesis, Structures, and Magnetic Properties of Rare-Earth Cobalt Arsenides, RCo₂As₂ (R = La, Ce, Pr, Nd)