J. Walachová scite author profile

J. Walachová

4Publications

40Citation Statements Received

25Citation Statements Given

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Affiliations

Czech Academy of Sciences, Institute of Physics, Czech Academy of Sciences, Institute of Photonics and Electronics, Institute of Radio-Engineering and Electronics

Publications

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High room-temperature figure of merit of thin layers prepared by laser ablation from Bi2Te3 target

Walachová

Zeipl

Zelinka

et al. 2005

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The figure of merit ZT is measured by a Harman method on simple devices prepared on single thermoelectric layers of different thicknesses. The thermoelectric layers are prepared at different conditions by laser ablation from Bi2Te3 target. The best measured figure of merit ZT is for our devices ZT=2.65. This result is comparable with the results obtained on superlattices. ZT oscillated with the thickness of the layers. On some devices the Seebeck coefficient is measured and using conductivity measurements along the thermoelectric layers the thermal conductivity is estimated from ZT. The low thermal conductivity of samples is explained by the quantum size effect and by existence of few phases of type Bi2(m+n)Te3n in the thermoelectric layers.

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Properties of thin N-type Yb0.14Co4Sb12 and P-type Ce0.09Fe0.67Co3.33Sb12 skutterudite layers prepared by laser ablation

Zeipl

Walachová

Lörinčı́k

et al. 2010

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The properties of thin thermoelectric layers (about 60 nm in thickness) prepared by pulsed laser deposition are presented. Hot pressed targets were made from “middle” temperature range thermoelectric bulk materials with the potential high figure of merit ZT. P-type and N-type layers were prepared from Yb0.19Co4Sb12 and Ce0.1Fe0.7Co3.3Sb12 targets, respectively. The thin films were deposited on quartz glass substrates using KrF excimer laser. The individual layers were prepared by applying different laser beam energy densities (2 or 3 J cm−2) at several substrate temperatures (200, 250, or 300 °C). Crystallinity and composition of the layers were examined by x-ray diffraction and wavelength dispersive analysis, respectively. Homogeneity of Yb across a surface of the Yb filled film was explored by secondary ion mass spectrometry. The thermoelectric properties, the Seebeck coefficient, the electrical resistivity, and the power factor, for the best prepared P and N layer are presented in the temperature range from 300 to 500 K.

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Probing of InAs/AlSb double barrier heterostructures by ballistic electron emission spectroscopy

Walachová

Zelinka

Vaniš

et al. 1997

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Template-based synthesis and magnetic properties of Mn-Zn ferrite nanotube and nanowire arrays J. Appl. Phys. 111, 026104 (2012) Self-assembled broadband plasmonic nanoparticle arrays for sensing applications Appl. Phys. Lett. 100, 031102 (2012) MBE growth of high electron mobility 2DEGs in AlGaN/GaN heterostructures controlled by RHEED AIP Advances 2, 012108 (2012) Noncatalytic chemical vapor deposition of graphene on high-temperature substrates for transparent electrodes Appl. Phys. Lett. 100, 022102 (2012) Experimental realization of the porous silicon optical multilayers based on the 1-s sequence

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Properties of thermoelectric Ce0.09Fe0.67Co3.33Sb12/FeSb2Te multi-layered structures prepared by laser ablation

et al. 2013

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J. Walachová

High room-temperature figure of merit of thin layers prepared by laser ablation from Bi2Te3 target

Properties of thin N-type Yb0.14Co4Sb12 and P-type Ce0.09Fe0.67Co3.33Sb12 skutterudite layers prepared by laser ablation

Probing of InAs/AlSb double barrier heterostructures by ballistic electron emission spectroscopy

Properties of thermoelectric Ce0.09Fe0.67Co3.33Sb12/FeSb2Te multi-layered structures prepared by laser ablation

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