Miłosz Rybak scite author profile

We present a systematic study of the electronic and magnetic properties of two-dimensional ordered alloys, consisting of two representative hosts (MnPS 3 and NiPS 3 ) of transition metal phosphorus trichalcogenides doped with 3d elements. For both hosts, our DFT + U calculations are able to qualitatively reproduce the ratios and signs of all experimentally observed magnetic couplings. The relative strength of all antiferromagnetic exchange couplings, both in MnPS 3 and in NiPS 3 , can successfully be explained using an effective direct exchange model: it reveals that the third-neighbor exchange dominates in NiPS 3 due to the filling of the t 2g subshell, whereas for MnPS 3 , the first-neighbor exchange prevails, owing to the presence of the t 2g magnetism. On the other hand, the nearest neighbor ferromagnetic coupling in NiPS 3 can only be explained using a more complex superexchange model and is (also) largely triggered by the absence of the t 2g magnetism. For the doped systems, the DFT + U calculations revealed that magnetic impurities do not affect the magnetic ordering observed in the pure phases, and thus, in general in these systems, ferromagnetism may not be easily induced by such a kind of elemental doping. However, unlike for the hosts, the first and second (dopant–host) exchange couplings are of similar order of magnitude. This leads to frustration in the case of antiferromagnetic coupling and may be one of the reasons of the observed lower magnetic ordering temperature of the doped systems.

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Controlling magnetic exchange and anisotropy by nonmagnetic ligand substitution in layered MPX3 ( M=Ni , Mn;
Basnet
¹
,
Kotur
²
,
Rybak
³

et al. 2022
Phys. Rev. Research
44
1
15
1
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Stress-Tuned Optical Transitions in Layered 1T-MX2 (M=Hf, Zr, Sn; X=S, Se) Crystals

et al. 2022

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Optical measurements under externally applied stresses allow us to study the materials’ electronic structure by comparing the pressure evolution of optical peaks obtained from experiments and theoretical calculations. We examine the stress-induced changes in electronic structure for the thermodynamically stable 1T polytype of selected MX2 compounds (M=Hf, Zr, Sn; X=S, Se), using the density functional theory. We demonstrate that considered 1T-MX2 materials are semiconducting with indirect character of the band gap, irrespective to the employed pressure as predicted using modified Becke–Johnson potential. We determine energies of direct interband transitions between bands extrema and in band-nesting regions close to Fermi level. Generally, the studied transitions are optically active, exhibiting in-plane polarization of light. Finally, we quantify their energy trends under external hydrostatic, uniaxial, and biaxial stresses by determining the linear pressure coefficients. Generally, negative pressure coefficients are obtained implying the narrowing of the band gap. The semiconducting-to-metal transition are predicted under hydrostatic pressure. We discuss these trends in terms of orbital composition of involved electronic bands. In addition, we demonstrate that the measured pressure coefficients of HfS2 and HfSe2 absorption edges are in perfect agreement with our predictions. Comprehensive and easy-to-interpret tables containing the optical features are provided to form the basis for assignation of optical peaks in future measurements.

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Miłosz Rybak

Limited Ferromagnetic Interactions in Monolayers of MPS₃ (M = Mn and Ni)

Controlling magnetic exchange and anisotropy by nonmagnetic ligand substitution in layered MPX3 ( M=Ni , Mn;
Basnet
¹
,
Kotur
²
,
Rybak
³

et al. 2022
Phys. Rev. Research
44
1
15
1
View full text Add to dashboard Cite

Stress-Tuned Optical Transitions in Layered 1T-MX2 (M=Hf, Zr, Sn; X=S, Se) Crystals

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Miłosz Rybak

Limited Ferromagnetic Interactions in Monolayers of MPS3 (M = Mn and Ni)

Controlling magnetic exchange and anisotropy by nonmagnetic ligand substitution in layered MPX3 ( M=Ni , Mn; Basnet1, Kotur2, Rybak3 et al. 2022Phys. Rev. Research441151View full textAdd to dashboardCite

Stress-Tuned Optical Transitions in Layered 1T-MX2 (M=Hf, Zr, Sn; X=S, Se) Crystals

Contact Info

Product

Resources

About

Limited Ferromagnetic Interactions in Monolayers of MPS₃ (M = Mn and Ni)

Controlling magnetic exchange and anisotropy by nonmagnetic ligand substitution in layered MPX3 ( M=Ni , Mn;
Basnet
¹
,
Kotur
²
,
Rybak
³

et al. 2022
Phys. Rev. Research
44
1
15
1
View full text Add to dashboard Cite