Detail publikace

Vytváření nanodrátků a nanotrubiček za použití anodizované keramiky jako masky.

HUBÁLEK, J., KLOSOVÁ, K.

Originální název

Vytváření nanodrátků a nanotrubiček za použití anodizované keramiky jako masky.

Český název

Vytváření nanodrátků a nanotrubiček za použití anodizované keramiky jako masky.

Typ

článek ve sborníku ve WoS nebo Scopus

Jazyk

cs

Originální abstrakt

The procedure of forming nanostructures uses electrodeposition employing anodic nanoporous alumina as template. The non-conductive template (Whatman anodisc) is coated with conductive (metal) layer on one side to create cathode. During the electrodeposition process, the metal is growing only on the conductive layer and fills up the nanopores in the non-conductive template. After dissolving the template, highly ordered metal nanostructures are obtained. The main parameters which can influence the crystal nuclei formation are the current density, the concentration of electrolyte, the temperature, impurities, and the pH. Nickel Watts bath was used for the nanotubes and nanowires growing. The current density was in the range 1-10 mA/cm² to observe optimal nuclei formation. Created nanostructures were examined by scanning electron microscopy (SEM).

Český abstrakt

The procedure of forming nanostructures uses electrodeposition employing anodic nanoporous alumina as template. The non-conductive template (Whatman anodisc) is coated with conductive (metal) layer on one side to create cathode. During the electrodeposition process, the metal is growing only on the conductive layer and fills up the nanopores in the non-conductive template. After dissolving the template, highly ordered metal nanostructures are obtained. The main parameters which can influence the crystal nuclei formation are the current density, the concentration of electrolyte, the temperature, impurities, and the pH. Nickel Watts bath was used for the nanotubes and nanowires growing. The current density was in the range 1-10 mA/cm² to observe optimal nuclei formation. Created nanostructures were examined by scanning electron microscopy (SEM).

Klíčová slova

nanodrátky, nanotrubičky, elektrodepozice, anodizovaná keramika

Rok RIV

2005

Vydáno

12.12.2005

Nakladatel

Nakl. Z. Novotný

ISBN

80-214-3116-4

Kniha

Mikrosyn. Nové trendy v mikroelektronických systémech a nanotechnologiích.

Číslo edice

první

Strany od

151

Strany do

154

Strany počet

4

BibTex


@inproceedings{BUT20671,
  author="Kateřina {Klosová} and Jaromír {Hubálek}",
  title="Vytváření nanodrátků a nanotrubiček za použití anodizované keramiky jako masky.",
  annote="The procedure of forming nanostructures uses electrodeposition employing anodic nanoporous alumina as template. The non-conductive template (Whatman anodisc) is coated with conductive (metal) layer on one side to create cathode. During the electrodeposition process, the metal is growing only on the conductive layer and fills up the nanopores in the non-conductive template. After dissolving the template, highly ordered metal nanostructures are obtained. The main parameters which can influence the crystal nuclei formation are the current density, the concentration of electrolyte, the temperature, impurities, and the pH. Nickel Watts bath was used for the nanotubes and nanowires growing. The current density was in the range 1-10 mA/cm² to observe optimal nuclei formation. Created nanostructures were examined by scanning electron microscopy (SEM).",
  address="Nakl. Z. Novotný",
  booktitle="Mikrosyn. Nové trendy v mikroelektronických systémech a nanotechnologiích.",
  chapter="20671",
  institution="Nakl. Z. Novotný",
  year="2005",
  month="december",
  pages="151",
  publisher="Nakl. Z. Novotný",
  type="conference paper"
}