Mechanochemical synthesis of nanocrystalline lead selenide: Industrial approach

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autoren

  • Marcela Achimovičová
  • Peter Baláž
  • Juraj Ďurišin
  • Nina Daneu
  • Juraj Kováč
  • Alexander Šatka
  • Armin Feldhoff
  • Eberhard Gock

Organisationseinheiten

Externe Organisationen

  • Slovak Academy of Sciences
  • Institut "Jožef Stefan" (IJS)
  • Slowakische Technische Universität Bratislava (STU)
  • Technische Universität Clausthal
Forschungs-netzwerk anzeigen

Details

OriginalspracheEnglisch
Seiten (von - bis)441-445
Seitenumfang5
FachzeitschriftInternational Journal of Materials Research
Jahrgang102
Ausgabenummer4
PublikationsstatusVeröffentlicht - 2011

Abstract

Mechanochemical synthesis of lead selenide PbSe nanoparticles was performed by high-energy milling of lead and selenium powder in a laboratory planetary ball mill and in an industrial eccentric vibratory mill. Structural properties of the synthesized lead selenide were characterized using X-ray diffraction that confirmed crystalline nature of PbSe nanoparticles. The average size of PbSe crystallites of 37 nm was calculated from X-ray diffraction data using the Williamson - Hall method. The methods of particle size distribution analysis, specific surface area measurement, scanning electron microscopy and transmission electron microscopy were used for characterization of surface, mean particle size, and morphology of PbSe. An application of industrial mill verified a possibility of the synthesis of a narrow bandgap semiconductor PbSe at ambient temperature and in a relatively short reaction time.

ASJC Scopus Sachgebiete

Zitieren

Mechanochemical synthesis of nanocrystalline lead selenide: Industrial approach. / Achimovičová, Marcela; Baláž, Peter; Ďurišin, Juraj et al.
in: International Journal of Materials Research, Jahrgang 102, Nr. 4, 2011, S. 441-445.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Achimovičová, M, Baláž, P, Ďurišin, J, Daneu, N, Kováč, J, Šatka, A, Feldhoff, A & Gock, E 2011, 'Mechanochemical synthesis of nanocrystalline lead selenide: Industrial approach', International Journal of Materials Research, Jg. 102, Nr. 4, S. 441-445. https://doi.org/10.3139/146.110496
Achimovičová, M., Baláž, P., Ďurišin, J., Daneu, N., Kováč, J., Šatka, A., Feldhoff, A., & Gock, E. (2011). Mechanochemical synthesis of nanocrystalline lead selenide: Industrial approach. International Journal of Materials Research, 102(4), 441-445. https://doi.org/10.3139/146.110496
Achimovičová M, Baláž P, Ďurišin J, Daneu N, Kováč J, Šatka A et al. Mechanochemical synthesis of nanocrystalline lead selenide: Industrial approach. International Journal of Materials Research. 2011;102(4):441-445. doi: 10.3139/146.110496
Achimovičová, Marcela ; Baláž, Peter ; Ďurišin, Juraj et al. / Mechanochemical synthesis of nanocrystalline lead selenide : Industrial approach. in: International Journal of Materials Research. 2011 ; Jahrgang 102, Nr. 4. S. 441-445.
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AU - Achimovičová, Marcela

AU - Baláž, Peter

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AU - Daneu, Nina

AU - Kováč, Juraj

AU - Šatka, Alexander

AU - Feldhoff, Armin

AU - Gock, Eberhard

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AB - Mechanochemical synthesis of lead selenide PbSe nanoparticles was performed by high-energy milling of lead and selenium powder in a laboratory planetary ball mill and in an industrial eccentric vibratory mill. Structural properties of the synthesized lead selenide were characterized using X-ray diffraction that confirmed crystalline nature of PbSe nanoparticles. The average size of PbSe crystallites of 37 nm was calculated from X-ray diffraction data using the Williamson - Hall method. The methods of particle size distribution analysis, specific surface area measurement, scanning electron microscopy and transmission electron microscopy were used for characterization of surface, mean particle size, and morphology of PbSe. An application of industrial mill verified a possibility of the synthesis of a narrow bandgap semiconductor PbSe at ambient temperature and in a relatively short reaction time.

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