Wonhyuk Shon scite author profile

Two dimensional van der Waals ferromagnets with honeycomb structures are expected to host the bosonic version of Dirac particles in their magnon excitation spectra. Using inelastic neutron scattering, we study spin wave excitations in polycrystalline CrCl 3 , which exhibits ferromagnetic honeycomb layers with antiferromagnetic stackings along the c-axis. For comparison, polycrystal samples of CrI 3 with different grain sizes are also studied. We find that the powder-averaged spin wave spectrum of CrCl 3 at T = 2 K can be adequately explained by the two dimensional spin Hamiltonian including in-plane Heisenberg exchanges only. The observed excitation does not exhibit noticeable broadening in energy, which is in remarkable contrast to the substantial broadening observed in CrI 3 . Based on these results, we conclude that the ferromagnetic phase of CrCl 3 hosts massless Dirac magnons and is thus not topological.

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Weak antilocalization and two-carrier electrical transport in Bi1−xSbx single crystals
Vu
¹
,
Shon
²
,
Rhyee
³

et al. 2019
Phys. Rev. B

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Magnetic polaron and unconventional magnetotransport properties of the single-crystalline compoundEuBiTe3

Shon

Rhyee

et al. 2019

Phys. Rev. B

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Size-Controlled Au–Cu₂Se Core–Shell Nanoparticles and Their Thermoelectric Properties

Hwang

Han

et al. 2020

ACS Appl. Mater. Interfaces

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One promising approach to improving thermoelectric energy conversion is to use nanostructured interfaces that enhance Seebeck coefficient while reducing thermal conductivity. Here, we synthesized Au–Cu2Se core–shell nanoparticles with different shell thicknesses by controlling the precursor concentration in solution. The Au–Cu2Se core–shell nanoparticles are about 37–53 nm in size, and the cores of the nanostructures are composed of Au nanoparticles with sizes of ∼11 nm. The effect of shell thickness on the thermoelectric properties of core–shell nanocomposites is investigated after sintering the core–shell nanoparticles into pellets using the spark plasma sintering (SPS) technique. The power factor was optimized by the synergetic effect of the improvement of Seebeck coefficient by energy filtering in the Au/Cu2Se interface and the effective tuning of carrier concentration by Ohmic contact in the interface. The lattice thermal conductivity of core–shell nanocomposites is reduced by coherent phonon scattering, which is caused by the wavelike interference of phonons due to the phase shift in the core–shell interface. The highest ZT value of 0.61 is obtained at 723 K for Au–Cu2Se core–shell nanocomposite with a shell thickness of 21 nm, which is higher than that of pure Cu2Se nanocomposite or a mixture of Au and Cu2Se particles.

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Wonhyuk Shon

Massless Dirac magnons in the two dimensional van der Waals honeycomb magnet CrCl₃

Weak antilocalization and two-carrier electrical transport in Bi1−xSbx single crystals
Vu
¹
,
Shon
²
,
Rhyee
³

et al. 2019
Phys. Rev. B

Magnetic polaron and unconventional magnetotransport properties of the single-crystalline compoundEuBiTe3

Size-Controlled Au–Cu₂Se Core–Shell Nanoparticles and Their Thermoelectric Properties

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Wonhyuk Shon

Massless Dirac magnons in the two dimensional van der Waals honeycomb magnet CrCl3

Weak antilocalization and two-carrier electrical transport in Bi1−xSbx single crystals Vu1, Shon2, Rhyee3 et al. 2019Phys. Rev. B

Magnetic polaron and unconventional magnetotransport properties of the single-crystalline compoundEuBiTe3

Size-Controlled Au–Cu2Se Core–Shell Nanoparticles and Their Thermoelectric Properties

Contact Info

Product

Resources

About

Massless Dirac magnons in the two dimensional van der Waals honeycomb magnet CrCl₃

Weak antilocalization and two-carrier electrical transport in Bi1−xSbx single crystals
Vu
¹
,
Shon
²
,
Rhyee
³

et al. 2019
Phys. Rev. B

Size-Controlled Au–Cu₂Se Core–Shell Nanoparticles and Their Thermoelectric Properties