Effect of Electrostriction on the Self-organization of Porous Nanostructures in Anodized Aluminum Oxide

L. G. Stanton; A. A. Golovin

Mathematical Modelling of Natural Phenomena (2008)

  • Volume: 3, Issue: 5, page 73-91
  • ISSN: 0973-5348

Abstract

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The self-organization of porous nanostructures in anodic metal oxide is considered. A mathematical model which incorporates the chemical reactions at the metal-oxide and oxide-electrolyte interfaces and elastic stress caused by the electrostrictive effects is developed. It is shown through linear stability analysis, that a short-wave instability exists in certain parameter regimes which can lead to the formation of hexagonally ordered pores observed in anodized aluminum oxide.

How to cite

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Stanton, L. G., and Golovin, A. A.. "Effect of Electrostriction on the Self-organization of Porous Nanostructures in Anodized Aluminum Oxide." Mathematical Modelling of Natural Phenomena 3.5 (2008): 73-91. <http://eudml.org/doc/222292>.

@article{Stanton2008,
abstract = { The self-organization of porous nanostructures in anodic metal oxide is considered. A mathematical model which incorporates the chemical reactions at the metal-oxide and oxide-electrolyte interfaces and elastic stress caused by the electrostrictive effects is developed. It is shown through linear stability analysis, that a short-wave instability exists in certain parameter regimes which can lead to the formation of hexagonally ordered pores observed in anodized aluminum oxide. },
author = {Stanton, L. G., Golovin, A. A.},
journal = {Mathematical Modelling of Natural Phenomena},
keywords = {electrostriction; nanostructures; stability analysis},
language = {eng},
month = {12},
number = {5},
pages = {73-91},
publisher = {EDP Sciences},
title = {Effect of Electrostriction on the Self-organization of Porous Nanostructures in Anodized Aluminum Oxide},
url = {http://eudml.org/doc/222292},
volume = {3},
year = {2008},
}

TY - JOUR
AU - Stanton, L. G.
AU - Golovin, A. A.
TI - Effect of Electrostriction on the Self-organization of Porous Nanostructures in Anodized Aluminum Oxide
JO - Mathematical Modelling of Natural Phenomena
DA - 2008/12//
PB - EDP Sciences
VL - 3
IS - 5
SP - 73
EP - 91
AB - The self-organization of porous nanostructures in anodic metal oxide is considered. A mathematical model which incorporates the chemical reactions at the metal-oxide and oxide-electrolyte interfaces and elastic stress caused by the electrostrictive effects is developed. It is shown through linear stability analysis, that a short-wave instability exists in certain parameter regimes which can lead to the formation of hexagonally ordered pores observed in anodized aluminum oxide.
LA - eng
KW - electrostriction; nanostructures; stability analysis
UR - http://eudml.org/doc/222292
ER -

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