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Hydrogen mapping in an aluminum alloy using an alternating current scanning electrochemical microscope (AC-SECM)

Measurements using an alternating current scanning electrochemical microscope (AC-SECM) were performed on a 2024 aluminum alloy pre-charged with hydrogen. A gradient in AC current magnitude was observed over several hundreds of microns on the side perpendicular to the charging side. After heat treat...

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Published in:	Electrochemistry communications 2017-07, Vol.80, p.29-32
Main Authors:	Lafouresse, Manon Chloé, de Bonfils-Lahovary, Marie-Laetitia, Laffont, Lydia, Blanc, Christine
Format:	Article
Language:	English
Subjects:	Alternating current scanning electrochemical microscopy (AC-SECM) Aluminum alloys Chemical and Process Engineering Chemical Sciences Condensed Matter Engineering Sciences Hydrogen absorption Hydrogen desorption Material chemistry Materials Materials Science Physics Scanning Kelvin probe force microscopy (SKPFM)
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creator	Lafouresse, Manon Chloé de Bonfils-Lahovary, Marie-Laetitia Laffont, Lydia Blanc, Christine
description	Measurements using an alternating current scanning electrochemical microscope (AC-SECM) were performed on a 2024 aluminum alloy pre-charged with hydrogen. A gradient in AC current magnitude was observed over several hundreds of microns on the side perpendicular to the charging side. After heat treatment at 130°C for 2h, the current gradient disappeared. Comparison with scanning Kelvin probe force microscopy (SKPFM) measurements confirmed that the increase in AC current magnitude observed with AC-SECM was due to the presence of hydrogen in the material. Fitting of localized impedance spectra with a suitable equivalent circuit showed the influence of H on the corrosion rate. AC-SECM is thus a powerful new method to detect hydrogen and study its effect on corrosion at the micrometer scale. [Display omitted] •3D map of H distribution in pre-charged aluminum alloys obtained with AC-SECM.•AC-SECM allows H detection at a μm scale.•Measurements performed in situ in electrolyte with no mediator redox.•Similar gradients as in SKPFM observed for H absorption.•H influences the reactivity of AA 2024.
doi_str_mv	10.1016/j.elecom.2017.05.007
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source	ScienceDirect Journals
subjects	Alternating current scanning electrochemical microscopy (AC-SECM) Aluminum alloys Chemical and Process Engineering Chemical Sciences Condensed Matter Engineering Sciences Hydrogen absorption Hydrogen desorption Material chemistry Materials Materials Science Physics Scanning Kelvin probe force microscopy (SKPFM)
title	Hydrogen mapping in an aluminum alloy using an alternating current scanning electrochemical microscope (AC-SECM)
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