Publication detail

Metal-substrate-supported tungsten-oxide nanoarrays via porous-alumina-assisted anodization: from nanocolumns to nanocapsules and nanotubes

MOZALEV, A. BENDOVÁ, M. GISPERT-GUIRADO, F. PYTLÍČEK, Z. LLOBET, E.

Original Title

Metal-substrate-supported tungsten-oxide nanoarrays via porous-alumina-assisted anodization: from nanocolumns to nanocapsules and nanotubes

Type

journal article in Web of Science

Language

English

Original Abstract

An array of highly aligned tungsten-oxide (TO) nanorods, similar to 80 nm wide, up to 900 nm long, spatially separated at their bottoms by tungsten metal on a substrate is synthesized via the self-localized anodization of aluminum followed by the porous-alumina-assisted re-anodization of tungsten in a sputter-deposited Al/W bilayer. Moreover, the pore-directed TO nanocapsules may grow, which can be electrochemically top-opened in alumina nanopores and transformed to TO nanotubes, representing unique architectures built up on tungsten substrates to date. The as-grown nanorods are composed of amorphous WO3 mixed with minor amounts of WO2 and Al2O3 in the outer layer and oxide-hydroxide compound (WO(3 center dot)nH(2)O) with aluminum tungstate (2Al(2)O(3)center dot 5WO(3)), mainly present inside the rods. Once the growing oxide fills up the pores, it comes out as an array of exotic protuberances of highly hydrated TO, with no analogues among the other valve-metal oxides. Vacuum or air annealing at 550 degrees C increases the portion of non-stoichiometric oxides 'doped' with OH-groups and gives monoclinic WO2.9 or a mixture of WO3 and WO2.9 nanocrystalline phases, respectively. The nanorods show n-type semiconductor behavior when examined by Mott-Schottky analysis, with a high carrier density of 7 x 10(19) or 3 x 10(19) cm(-3) for the air- or vacuum-annealed samples, associated with a charge depletion layer of about 8 or 10 nm, respectively. A model for the growth of the metal-substrate-separated TO nanocapsules and tubes is proposed and experimentally justified. The findings suggest that the new TO nanoarrays with well-defined nano-channels for carriers may form the basic elements for photoanodes or emerging 3-D micro- and nano-sensors.

Keywords

tungsten-oxide, anodization, porous-alumina, nanocolumns, nanocapsules, nanotubes

Authors

MOZALEV, A.; BENDOVÁ, M.; GISPERT-GUIRADO, F.; PYTLÍČEK, Z.; LLOBET, E.

Released

20. 4. 2016

Publisher

Royal Society of Chemistry

Location

Burlington House, Piccadilly, London, W1J 0BA

ISBN

2050-7488

Periodical

Journal of Materials Chemistry A

Year of study

21

Number

4

State

United Kingdom of Great Britain and Northern Ireland

Pages from

8219

Pages to

8232

Pages count

14

URL

http://pubs.rsc.org/en/content/articlelanding/2016/ta/c6ta02027e#!divAbstract

Full text in the Digital Library

http://hdl.handle.net/11012/203131

BibTex

@article{BUT127033,
  author="Alexander {Mozalev} and Mária {Bendová} and Francesc {Gispert-Guirado} and Zdeněk {Pytlíček} and Eduard {Llobet}",
  title="Metal-substrate-supported tungsten-oxide nanoarrays via porous-alumina-assisted anodization: from nanocolumns to nanocapsules and nanotubes",
  journal="Journal of Materials Chemistry A",
  year="2016",
  volume="21",
  number="4",
  pages="8219--8232",
  doi="10.1039/c6ta02027e",
  issn="2050-7488",
  url="http://pubs.rsc.org/en/content/articlelanding/2016/ta/c6ta02027e#!divAbstract"
}