Zobrazeno 1 - 9
of 9
pro vyhledávání: '"Katarína Gáborová"'
Autor:
Marcela Achimovičová, Katarína Gáborová, Jiří Navrátil, Petr Levinský, Olha Skurikhina, Juraj Kurimský, Jaroslav Briančin, Tomáš Plecháček, Dáša Drenčaková
Publikováno v:
Discover Nano, Vol 19, Iss 1, Pp 1-10 (2024)
Abstract This work studied the thermal stability, electrical, and thermoelectrical properties of copper(I) selenide, Cu2Se synthesized by high-energy milling in a planetary ball mill. The phase composition was investigated by X-ray powder diffraction
Externí odkaz:
https://doaj.org/article/18547b6bb48c4fe99e8249efe01ea048
Autor:
Dagmara Varcholová, Katarína Kušnírová, Lenka Oroszová, Jens Möllmer, Marcus Lange, Katarína Gáborová, Branislav Buľko, Peter Demeter, Karel Saksl
Publikováno v:
Materials, Vol 17, Iss 12, p 2897 (2024)
This study presents the design, preparation, and characterization of thirty new medium-entropy alloys (MEAs) in three systems: Al-Ti-Nb-Zr, Al-Ti-Nb-V, and Al-Ti-Nb-Hf. The hardness of the alloys ranged from 320 to 800 HV0.3. Among the alloys studied
Externí odkaz:
https://doaj.org/article/9afb4e1e6da94fcab6d1683593db8624
Autor:
Erika Dutková, Jaroslav Kováč, Jiří Hejtmánek, Petr Levinský, Adelia Kashimbetova, María Jesús Sayagués, Martin Fabián, Zdenka Lukáčová Bujňáková, Matej Baláž, Katarína Gáborová, Viktor Puchý, Ladislav Čelko
Publikováno v:
Micro, Vol 3, Iss 2, Pp 458-470 (2023)
In this study, we report the optoelectric and thermoelectric properties of famatinite Cu3SbS4 that was mechanochemically synthesized in a planetary mill from powder elements for 120 min in an inert atmosphere. The tetragonal famatinite Cu3SbS4 was na
Externí odkaz:
https://doaj.org/article/94e487aa03824f31be848db5b68342c5
Comparative Study of Nanostructured CuSe Semiconductor Synthesized in a Planetary and Vibratory Mill
Autor:
Marcela Achimovičová, Matej Baláž, Vladimír Girman, Juraj Kurimský, Jaroslav Briančin, Erika Dutková, Katarína Gáborová
Publikováno v:
Nanomaterials, Vol 10, Iss 10, p 2038 (2020)
Copper(II) selenide, CuSe was prepared from Cu and Se powders in a stoichiometric ratio by a rapid, and convenient one-step mechanochemical synthesis, after 5 and 10 min of milling in a planetary, and an industrial vibratory, mill. The kinetics of th
Externí odkaz:
https://doaj.org/article/06cf7c2e897e4e2ebe82bf7e1337dc14
Autor:
Katarína Gáborová, Marcela Achimovičová, Pavel Škácha, María Florencia Márquez-Zavalía, Jaroslav Briančin, Oľga Šestinová
Publikováno v:
Mining, Metallurgy & Exploration. 40:505-515
Autor:
Vladimír Girman, Michal Hegedüs, Mária Kaňuchová, Marcela Achimovičová, Erika Dutková, Katarína Gáborová
Publikováno v:
Frontiers of Chemical Science and Engineering. 16:433-442
Copper(I) selenide-nanocrystalline semiconductor was synthesized via one-step mechanochemical synthesis after 5 min milling in a planetary ball mill. The kinetics of synthesis was followed by X-ray powder diffraction analysis and specific surface are
Autor:
Katarína Gáborová, Marcela Achimovicova, Pavel Škácha, María Florencia Márquez-Zavalía, Jaroslav Briančin, Oľga Šestinová
Publikováno v:
SSRN Electronic Journal.
Comparative Study of Nanostructured CuSe Semiconductor Synthesized in a Planetary and Vibratory Mill
Autor:
Juraj Kurimský, Vladimír Girman, Katarína Gáborová, Matej Baláž, Marcela Achimovičová, Jaroslav Briančin, Erika Dutková
Publikováno v:
Nanomaterials
Volume 10
Issue 10
Nanomaterials, Vol 10, Iss 2038, p 2038 (2020)
Volume 10
Issue 10
Nanomaterials, Vol 10, Iss 2038, p 2038 (2020)
Copper(II) selenide, CuSe was prepared from Cu and Se powders in a stoichiometric ratio by a rapid, and convenient one-step mechanochemical synthesis, after 5 and 10 min of milling in a planetary, and an industrial vibratory, mill. The kinetics of th
Autor:
Jaroslav Briančin, Katarína Gáborová, Erika Tóthová, Tomáš Weidlich, Michal Hegedüs, Pavel Kalivoda
Publikováno v:
Journal of Environmental Chemical Engineering. 9:105764
The present study reports on the degradation of chlorinated benzoic acids (CBAs), commonly present in the environment as pollutants, by a hydrodehalogenation reaction utilizing the Raney Al-Ni alloy (50:50 wt% Al:Ni). The hydrodehalogenation reaction