Přístupnostní navigace
E-application
Search Search Close
Publication detail
LEDNICKÝ, T. MOZALEV, A.
Original Title
OPTIMIZATION OF SELF-ORGANIZED GROWTH OF NANOPOROUS ANODIC ALUMINA TEMPLATES FOR CAPACITOR APPLICATION
Type
abstract
Language
English
Original Abstract
High-voltage nanoporous anodic films grown on aluminium in certain organic electrolytes are of increasing interest for potential applications as nanotemplates to electrical capacitors and, more generally, as models for investigating self-organized growth of anodic oxides at the frontier conditions. The major difficulty associated with this technology is that the process of pore nucleation and growth over a large-area aluminium substrate needs optimization and adaptation to the specific technological conditions applied to aluminium substrates as the surface finishing pre-treatments. In this work we have studied the impact of important pre-treatment technologies for Al foils, such as high temperature annealing and electrochemical polishing, on the pore nucleation and growth during galvanostatic formation of nanoporous anodic alumina templates in aqueous solutions of citric acid. It was revealed that the self-organized pore nucleation and growth is strictly dependent upon the anodizing setup, anodizing variables, surface morphology and crystalline structure of aluminium foils, which are additionally affected by the conditions of vacuum annealing and electropolishing pre-treatments. The findings are useful for growing well-ordered nanopores for non-lithographic formation of metal and metal- oxide nanostructures for advanced capacitor application.
Keywords
anodizing, citric acid, porous anodic alumina, nanostructure, capacitor
Authors
LEDNICKÝ, T.; MOZALEV, A.
Released
14. 10. 2015
Publisher
TANGER Ltd.
Location
Ostrava, Czech Republic
ISBN
978-80-87294-59-8
Book
NANOCON 2015 Proceedings of Abstracts
Edition
1st
Pages from
90
Pages to
Pages count
1
BibTex
@misc{BUT119101, author="Tomáš {Lednický} and Alexander {Mozalev}", title="OPTIMIZATION OF SELF-ORGANIZED GROWTH OF NANOPOROUS ANODIC ALUMINA TEMPLATES FOR CAPACITOR APPLICATION", booktitle="NANOCON 2015 Proceedings of Abstracts", year="2015", series="1st", pages="90--90", publisher="TANGER Ltd.", address="Ostrava, Czech Republic", isbn="978-80-87294-59-8", note="abstract" }