Detail publikace

Generation of silver nanoparticles by the pin-hole DC plasma source with and without gas bubbling

KOZÁKOVÁ, Z. KRČMA, F. ČECHOVÁ, L. SIMIĆ, S. DOSKOČIL, L.

Originální název

Generation of silver nanoparticles by the pin-hole DC plasma source with and without gas bubbling

Anglický název

Generation of silver nanoparticles by the pin-hole DC plasma source with and without gas bubbling

Jazyk

en

Originální abstrakt

Silver nanoparticles were produced using the pin-hole discharge generated by dc non-pulsing high voltage directly in silver nitrate solutions. Sodium nitrate was alternatively added to increase solution conductivity and decrease input energy for the discharge breakdown. Argon or oxygen was bubbled through the discharge region. Comparative experiments were evaluated by UV-VIS spectrometry. Formation of silver nanoparticles with the average size of 100 nm was confirmed by SEM/EDS analysis.

Anglický abstrakt

Silver nanoparticles were produced using the pin-hole discharge generated by dc non-pulsing high voltage directly in silver nitrate solutions. Sodium nitrate was alternatively added to increase solution conductivity and decrease input energy for the discharge breakdown. Argon or oxygen was bubbled through the discharge region. Comparative experiments were evaluated by UV-VIS spectrometry. Formation of silver nanoparticles with the average size of 100 nm was confirmed by SEM/EDS analysis.

Dokumenty

BibTex


@article{BUT160142,
  author="Zdenka {Kozáková} and František {Krčma} and Ludmila {Čechová} and Sanja {Simić} and Leoš {Doskočil}",
  title="Generation of silver nanoparticles by the pin-hole DC plasma source with and without gas bubbling",
  annote="Silver nanoparticles were produced using the pin-hole discharge generated by dc non-pulsing high voltage directly in silver nitrate solutions. Sodium nitrate was alternatively added to increase solution conductivity and decrease input energy for the discharge breakdown. Argon or oxygen was bubbled through the discharge region. Comparative experiments were evaluated by UV-VIS spectrometry. Formation of silver nanoparticles with the average size of 100 nm was confirmed by SEM/EDS analysis.",
  chapter="160142",
  doi="10.14311/ppt.2019.2.180",
  howpublished="print",
  number="2",
  volume="6",
  year="2019",
  month="september",
  pages="180--183",
  type="journal article in Scopus"
}