M. Wierzbicki scite author profile

Transport and thermoelectric coefficients (including also spin thermopower) of silicene nanoribbons with zigzag edges are investigated by ab-initio numerical methods. Local spin density of such nanoribbons reveals edge magnetism. Like in graphene, one finds antiferromagnetic and ferromagnetic ordering, with spin polarization at one edge antiparallel or parallel to that at the other edge, respectively. Thermoelectric properties, especially the Seebeck coefficient, significantly depend on the electronic band structure and are enhanced when the Fermi level is in the energy gap. However, these thermoelectric properties are significantly reduced when the phonon contribution to the heat conductance is included. This phonon contribution has been calculated numerically by two different methods. Transition from antiferromagnetic to ferromagnetic states leads to a large magnetoresistance as well as to a considerable magnetothermopower. Thermoelectric parameters in the antiparallel configuration, when spin polarization in the left part of the nanoribbon is opposite to that in the right part, are also analyzed.

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Influence of interference effects on thermoelectric properties of double quantum dots

Wierzbicki

Świrkowicz

2011

Phys. Rev. B

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Electric and thermoelectric phenomena in a multilevel quantum dot attached to ferromagnetic electrodes

Wierzbicki

Świrkowicz

2010

Phys. Rev. B

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Raman scattering studies on very thin layers of gallium sulfide (GaS) as a function of sample thickness and temperature

Jastrzębski

Olkowska

Jastrzebski

et al. 2019

J. Phys.: Condens. Matter

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Gallium sulfide is a semiconducting material with a layered structure and a characteristic low interlayer interaction. Because of weak van der Waals forces, GaS crystals are relatively easy to exfoliate to very thin layers. In this work nanometricGaS layers were obtained by a micromechanical exfoliation process and were transferred to Si/SiO 2 substrate. The thickness of these layers was estimated from AFM measurements. Raman spectra were collected for different layer thicknesses ranging from one layer to bulk crystal. An analytical function fitted to experimental data is proposed to determine layer thickness from Raman measurements. For the first time, the Raman position and the FWHM of the main Raman peaks were measured on very thin GaS layers as a function of temperature in the range from 80 to 470 K. The first order temperature coefficients of the A 1g Raman peaks were determined. Phonon decay due to anharmonic processes at temperatures above 300 K in layers of thickness below 4 nm was observed. Contribution of optical phonon scattering processes to thermal properties of very thin GaS layers is discussed.

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M. Wierzbicki

Thermoelectric effects in transport through quantum dots attached to ferromagnetic leads with noncollinear magnetic moments

Thermoelectric effects in silicene nanoribbons

Influence of interference effects on thermoelectric properties of double quantum dots

Electric and thermoelectric phenomena in a multilevel quantum dot attached to ferromagnetic electrodes

Raman scattering studies on very thin layers of gallium sulfide (GaS) as a function of sample thickness and temperature

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