A. Królicka scite author profile

Lead chalcogenide (PbTe) nanopowders doped with chromium, iodine, silver and lanthanum were obtained by ball-milling ingots grown by the vertical Bridgman technique. These nanopowders were subsequently subjected to consolidating by cold pressing technique and further sintering in a furnace (CPS). In the present work, the effect of ball milling time and second phases on the microstructure and the eventual crystallite size is analyzed. The thermal conductivity versus temperature measurements were conducted and showed decrease in κ values with milling time. The lowest obtained thermal conductivity values were as follows: κ = 0.4W/mK and κ = 0.26W/mK for PbTe:Cr, I and PbTe:Ag,La materials, respectively. Additionally, scanning electron microscopy (SEM) was performed for the samples after different milling time. In order to determine the size of the obtained powder particles the particle size analysis measurements were performed using optical microscopy (Clemex vision software) and X-ray powder diffraction analysis (XRD).

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A. Królicka

Effect of sol-gel and solid-state synthesis techniques on structural, morphological and thermoelectric performance of Ca3Co4O9

Magnetic constitution of topologically trivial thermoelectric PbTe:Cr

Comparison of different sintering methods of Pb 1−x Cr x Te thermoelectric nanocomposites doped with iodine

Synthesis and Ball Milling Effect on Thermal Conductivity of PbTe Based Alloys

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