Lifen Shi scite author profile

Recently, transition-metal-based kagome metals have aroused much research interest as a novel platform to explore exotic topological quantum phenomena. Here we report on the synthesis, structure, and physical properties of a bilayer kagome lattice compound V3Sb2. The polycrystalline V3Sb2 samples were synthesized by conventional solid-state-reaction method in a sealed quartz tube at temperatures below 850 ℃. Measurements of magnetic susceptibility and resistivity revealed consistently a density-wave-like transition at T dw ≈ 160 K with a large thermal hysteresis, even though some sample-dependent behaviors are observed presumably due to the different preparation conditions. Upon cooling through T dw, no strong anomaly in lattice parameters and no indication of symmetry lowering were detected in powder x-ray diffraction measurements. This transition can be suppressed completely by applying hydrostatic pressures of about 1.8 GPa, around which no sign of superconductivity is observed down to 1.5 K. Specific-heat measurements reveal a relatively large Sommerfeld coefficient γ = 18.5 mJ/mol-K2, confirming the metallic ground state with moderate electronic correlations. Density functional theory calculations indicate that V3Sb2 shows a non-trivial topological crystalline property. Thus, our study makes V3Sb2 a new candidate of metallic kagome compound to study the interplay between density-wave-order, nontrivial band topology, and possible superconductivity.

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Pressure effect in the antiperovskite phosphide superconductor Sr(Pt0.9Pd0.1)3P

Shi

Yang

Wang

et al. 2022

Phys. Rev. B

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Percolation-induced resistivity drop in lutetium dihydride with controllable electrical conductivity over six orders of magnitude

Wang

Hou

Liu

et al. 2023

Sci. China Phys. Mech. Astron.

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Complex evolution of the magnetic transitions and unexpected absence of bulk superconductivity in chemically precompressed NaMn6Bi5

et al. 2023

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Pressure-driven evolution of upper critical field and Fermi surface reconstruction in the strong-coupling superconductor Ti4Ir2O

et al. 2023

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Lifen Shi

Electronic and magnetic properties of intermetallic kagome magnets RV6Sn6(R=Tb−Tm)

Pressure-driven superconducting dome in the vicinity of CDW in the pyrite-type superconductor CuS2

A density-wave-like transition in the polycrystalline V₃Sb₂ sample with bilayer kagome lattice

Pressure effect in the antiperovskite phosphide superconductor Sr(Pt0.9Pd0.1)3P

Percolation-induced resistivity drop in lutetium dihydride with controllable electrical conductivity over six orders of magnitude

Complex evolution of the magnetic transitions and unexpected absence of bulk superconductivity in chemically precompressed NaMn6Bi5

Pressure-driven evolution of upper critical field and Fermi surface reconstruction in the strong-coupling superconductor Ti4Ir2O

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Lifen Shi

Electronic and magnetic properties of intermetallic kagome magnets RV6Sn6(R=Tb−Tm)

Pressure-driven superconducting dome in the vicinity of CDW in the pyrite-type superconductor CuS2

A density-wave-like transition in the polycrystalline V3Sb2 sample with bilayer kagome lattice

Pressure effect in the antiperovskite phosphide superconductor Sr(Pt0.9Pd0.1)3P

Percolation-induced resistivity drop in lutetium dihydride with controllable electrical conductivity over six orders of magnitude

Complex evolution of the magnetic transitions and unexpected absence of bulk superconductivity in chemically precompressed NaMn6Bi5

Pressure-driven evolution of upper critical field and Fermi surface reconstruction in the strong-coupling superconductor Ti4Ir2O

Contact Info

Product

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A density-wave-like transition in the polycrystalline V₃Sb₂ sample with bilayer kagome lattice