A model study on controlling dealloying corrosion attack by lateral modification of surfactant inhibitors

A model study on controlling dealloying corrosion attack by lateral modification of surfactant inhibitors

Abstract Detrimental corrosion is an ever-concerning challenge for metals and alloys. One possible remedy is to apply organic corrosion inhibitors. Despite progress in molecular assembly and inhibitor research, better mechanistic insight on the molecular level is needed. Here we report on the behavi...

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Main Authors: Shova Neupane, Nicolás A. Rivas, Patricia Losada-Pérez, Jan D’Haen, Heshmat Noei, Thomas. F. Keller, Andreas Stierle, Michael Rudolph, Andreas Terfort, Oscar Bertran, Daniel Crespo, Anton Kokalj, Frank Uwe Renner
Format: Article
Language:English
Published: Nature Publishing Group 2021-05-01
Series:npj Materials Degradation
Online Access:https://doi.org/10.1038/s41529-021-00169-2
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spelling doaj-4329b10d330840daa5e5188a490efd2e2021-05-30T11:27:29ZengNature Publishing Groupnpj Materials Degradation2397-21062021-05-01511610.1038/s41529-021-00169-2A model study on controlling dealloying corrosion attack by lateral modification of surfactant inhibitorsShova Neupane0Nicolás A. Rivas1Patricia Losada-Pérez2Jan D’Haen3Heshmat Noei4Thomas. F. Keller5Andreas Stierle6Michael Rudolph7Andreas Terfort8Oscar Bertran9Daniel Crespo10Anton Kokalj11Frank Uwe Renner12Institute for Materials Research (IMO), Hasselt UniversityInstitute for Materials Research (IMO), Hasselt UniversityInstitute for Materials Research (IMO), Hasselt UniversityInstitute for Materials Research (IMO), Hasselt UniversityCentre for X-ray and Nano Science CXNS, Deutsches Elektronen-Synchrotron DESYCentre for X-ray and Nano Science CXNS, Deutsches Elektronen-Synchrotron DESYCentre for X-ray and Nano Science CXNS, Deutsches Elektronen-Synchrotron DESYInstitute of Inorganic and Analytical Chemistry, Goethe-UniversityInstitute of Inorganic and Analytical Chemistry, Goethe-UniversityDepartment of Physics, Universitat Politècnica de CatalunyaDepartment of Physics, Universitat Politècnica de CatalunyaDepartment of Physical and Organic Chemistry, Jožef Stefan InstituteInstitute for Materials Research (IMO), Hasselt UniversityAbstract Detrimental corrosion is an ever-concerning challenge for metals and alloys. One possible remedy is to apply organic corrosion inhibitors. Despite progress in molecular assembly and inhibitor research, better mechanistic insight on the molecular level is needed. Here we report on the behavior of well-defined artificial molecular interfaces created by micro-contact printing of thiol-inhibitor molecules and subsequent backfilling. The obtained heterogeneity and defects trigger localized dealloying-corrosion of well-defined Cu3Au surfaces. The stability of applied inhibitor molecules depends on alloy surface morphology and on intermolecular forces of the molecular layers. On extended terraces, dealloying preferentially starts at the boundary between areas composed of the two different chain-length inhibitor molecules. Inside of the areas hardly any nucleation of initial pits is visible. Step density strongly influences the morphology of the dealloying attack, while film heterogeneity avoids cracking and controls molecular-scale corrosion attack. The presented surface-science approach, moreover, will ultimately allow to verify the acting mechanisms of inhibitor-cocktails to develop recipes to stabilize metallic alloy surfaces.https://doi.org/10.1038/s41529-021-00169-2
collection DOAJ
language English
format Article
sources DOAJ
author Shova Neupane
Nicolás A. Rivas
Patricia Losada-Pérez
Jan D’Haen
Heshmat Noei
Thomas. F. Keller
Andreas Stierle
Michael Rudolph
Andreas Terfort
Oscar Bertran
Daniel Crespo
Anton Kokalj
Frank Uwe Renner
spellingShingle Shova Neupane
Nicolás A. Rivas
Patricia Losada-Pérez
Jan D’Haen
Heshmat Noei
Thomas. F. Keller
Andreas Stierle
Michael Rudolph
Andreas Terfort
Oscar Bertran
Daniel Crespo
Anton Kokalj
Frank Uwe Renner
A model study on controlling dealloying corrosion attack by lateral modification of surfactant inhibitors
npj Materials Degradation
author_facet Shova Neupane
Nicolás A. Rivas
Patricia Losada-Pérez
Jan D’Haen
Heshmat Noei
Thomas. F. Keller
Andreas Stierle
Michael Rudolph
Andreas Terfort
Oscar Bertran
Daniel Crespo
Anton Kokalj
Frank Uwe Renner
author_sort Shova Neupane
title A model study on controlling dealloying corrosion attack by lateral modification of surfactant inhibitors
title_short A model study on controlling dealloying corrosion attack by lateral modification of surfactant inhibitors
title_full A model study on controlling dealloying corrosion attack by lateral modification of surfactant inhibitors
title_fullStr A model study on controlling dealloying corrosion attack by lateral modification of surfactant inhibitors
title_full_unstemmed A model study on controlling dealloying corrosion attack by lateral modification of surfactant inhibitors
title_sort model study on controlling dealloying corrosion attack by lateral modification of surfactant inhibitors
publisher Nature Publishing Group
series npj Materials Degradation
issn 2397-2106
publishDate 2021-05-01
description Abstract Detrimental corrosion is an ever-concerning challenge for metals and alloys. One possible remedy is to apply organic corrosion inhibitors. Despite progress in molecular assembly and inhibitor research, better mechanistic insight on the molecular level is needed. Here we report on the behavior of well-defined artificial molecular interfaces created by micro-contact printing of thiol-inhibitor molecules and subsequent backfilling. The obtained heterogeneity and defects trigger localized dealloying-corrosion of well-defined Cu3Au surfaces. The stability of applied inhibitor molecules depends on alloy surface morphology and on intermolecular forces of the molecular layers. On extended terraces, dealloying preferentially starts at the boundary between areas composed of the two different chain-length inhibitor molecules. Inside of the areas hardly any nucleation of initial pits is visible. Step density strongly influences the morphology of the dealloying attack, while film heterogeneity avoids cracking and controls molecular-scale corrosion attack. The presented surface-science approach, moreover, will ultimately allow to verify the acting mechanisms of inhibitor-cocktails to develop recipes to stabilize metallic alloy surfaces.
url https://doi.org/10.1038/s41529-021-00169-2
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