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<i>In Situ</i> Grazing Incidence X-ray Total Scattering Reveals the Effect of the "Two-Step" Method for the Anodization of Aluminum Surfaces.


ABSTRACT: Thanks to its ability to form a lattice of self-ordered nanosized pores, nanoporous anodic aluminum oxide (NP-AAO) is a promising material with diverse applications, for example, as membrane for the controlled deposition of catalysts. NP-AAO is obtained by the anodization of an aluminum substrate under specific pH and voltage conditions. However, the growth mechanism of the oxide is still under debate. We shed light on this process by investigating structural changes at the atomic scale using pair distribution function (PDF) analysis. We thus performed in situ X-ray total scattering experiments under grazing incidence conditions during the anodization of aluminum substrates exhibiting different crystallographic facets. By doing so, we were able to track the evolution of the local structure of aluminum oxide species forming at the oxide-electrolyte interface over time.

SUBMITTER: Magnard NPL 

PROVIDER: S-EPMC12371698 | biostudies-literature | 2025 Aug

REPOSITORIES: biostudies-literature

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&lt;i&gt;In Situ&lt;/i&gt; Grazing Incidence X-ray Total Scattering Reveals the Effect of the "Two-Step" Method for the Anodization of Aluminum Surfaces.

Magnard Nicolas P L NPL   Abbondanza Giuseppe G   Junkers Laura S LS   Glatthaar Lorena L   Grespi Andrea A   Spriewald Luciano Alexander A   Igoa Saldaña Fernando F   Dippel Ann-Christin AC   Vinogradov Nikolay N   Over Herbert H   Jensen Kirsten M Ø KMØ   Lundgren Edvin E  

ACS applied materials & interfaces 20250811 33


Thanks to its ability to form a lattice of self-ordered nanosized pores, nanoporous anodic aluminum oxide (NP-AAO) is a promising material with diverse applications, for example, as membrane for the controlled deposition of catalysts. NP-AAO is obtained by the anodization of an aluminum substrate under specific pH and voltage conditions. However, the growth mechanism of the oxide is still under debate. We shed light on this process by investigating structural changes at the atomic scale using pa  ...[more]

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