Designing Nanostructured Organic-Based Material by Combining Plasma Polymerization and the Wrinkling Approach
In this work, an innovative and versatile strategy for the fabrication of nanostructured organic thin films is established based on the wrinkling phenomenon taking place in a bilayer system constituted by a liquid plasma polymer film (PPF) and a top Al coating. By means of morphological characteriza...
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| Published in | Langmuir Vol. 39; no. 43; pp. 15231 - 15237 |
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| Main Authors | , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
American Chemical Society
31.10.2023
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0743-7463 1520-5827 1520-5827 |
| DOI | 10.1021/acs.langmuir.3c01873 |
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| Abstract | In this work, an innovative and versatile strategy for the fabrication of nanostructured organic thin films is established based on the wrinkling phenomenon taking place in a bilayer system constituted by a liquid plasma polymer film (PPF) and a top Al coating. By means of morphological characterization (i.e., atomic force microscopy and scanning electron microscopy), it has been demonstrated that the wrinkle dimensions (i.e., wavelength and amplitude) evolve as a function of the PPF thickness according to models established for conventional polymers. The wrinkled surfaces exhibit great stability over time as their dimension did not vary after 100 days of aging, resulting from a pinning phenomenon between the Al layer and the Si substrate, hence freezing the morphology. In a second step, the wrinkled surfaces have been employed as templates for the deposition of an additional PPF third layer, giving rise to the formation of a nanostructured organic-based surface. The chemical composition of the material can be tuned through an appropriate choice of precursor (i.e., allyl alcohol or propanethiol). |
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| AbstractList | In this work, an innovative and versatile strategy for the fabrication of nanostructured organic thin films is established based on the wrinkling phenomenon taking place in a bilayer system constituted by a liquid plasma polymer film (PPF) and a top Al coating. By means of morphological characterization (i.e., atomic force microscopy and scanning electron microscopy), it has been demonstrated that the wrinkle dimensions (i.e., wavelength and amplitude) evolve as a function of the PPF thickness according to models established for conventional polymers. The wrinkled surfaces exhibit great stability over time as their dimension did not vary after 100 days of aging, resulting from a pinning phenomenon between the Al layer and the Si substrate, hence freezing the morphology. In a second step, the wrinkled surfaces have been employed as templates for the deposition of an additional PPF third layer, giving rise to the formation of a nanostructured organic-based surface. The chemical composition of the material can be tuned through an appropriate choice of precursor (i.e., allyl alcohol or propanethiol).In this work, an innovative and versatile strategy for the fabrication of nanostructured organic thin films is established based on the wrinkling phenomenon taking place in a bilayer system constituted by a liquid plasma polymer film (PPF) and a top Al coating. By means of morphological characterization (i.e., atomic force microscopy and scanning electron microscopy), it has been demonstrated that the wrinkle dimensions (i.e., wavelength and amplitude) evolve as a function of the PPF thickness according to models established for conventional polymers. The wrinkled surfaces exhibit great stability over time as their dimension did not vary after 100 days of aging, resulting from a pinning phenomenon between the Al layer and the Si substrate, hence freezing the morphology. In a second step, the wrinkled surfaces have been employed as templates for the deposition of an additional PPF third layer, giving rise to the formation of a nanostructured organic-based surface. The chemical composition of the material can be tuned through an appropriate choice of precursor (i.e., allyl alcohol or propanethiol). In this work, an innovative and versatile strategy for the fabrication of nanostructured organic thin films is established based on the wrinkling phenomenon taking place in a bilayer system constituted by a liquid plasma polymer film (PPF) and a top Al coating. By means of morphological characterization (i.e., atomic force microscopy and scanning electron microscopy), it has been demonstrated that the wrinkle dimensions (i.e., wavelength and amplitude) evolve as a function of the PPF thickness according to models established for conventional polymers. The wrinkled surfaces exhibit great stability over time as their dimension did not vary after 100 days of aging, resulting from a pinning phenomenon between the Al layer and the Si substrate, hence freezing the morphology. In a second step, the wrinkled surfaces have been employed as templates for the deposition of an additional PPF third layer, giving rise to the formation of a nanostructured organic-based surface. The chemical composition of the material can be tuned through an appropriate choice of precursor (i.e., allyl alcohol or propanethiol). |
| Author | Tromont, David Leclère, Philippe Thiry, Damien Vinx, Nathan Chauvin, Adrien Snyders, Rony |
| AuthorAffiliation | Materia Nova Research Center Chimie des Interactions Plasma-Surface (ChIPS), Institut Matériaux Université of Mons Laboratoire de Physique des Nanomatériaux et Energie (LPNE), Institut Matériaux |
| AuthorAffiliation_xml | – name: Chimie des Interactions Plasma-Surface (ChIPS), Institut Matériaux – name: Laboratoire de Physique des Nanomatériaux et Energie (LPNE), Institut Matériaux – name: Université of Mons – name: Materia Nova Research Center |
| Author_xml | – sequence: 1 givenname: Nathan surname: Vinx fullname: Vinx, Nathan organization: Chimie des Interactions Plasma-Surface (ChIPS), Institut Matériaux – sequence: 2 givenname: David surname: Tromont fullname: Tromont, David organization: Chimie des Interactions Plasma-Surface (ChIPS), Institut Matériaux – sequence: 3 givenname: Adrien orcidid: 0000-0003-1896-8776 surname: Chauvin fullname: Chauvin, Adrien organization: Chimie des Interactions Plasma-Surface (ChIPS), Institut Matériaux – sequence: 4 givenname: Philippe orcidid: 0000-0002-5490-0608 surname: Leclère fullname: Leclère, Philippe organization: Université of Mons – sequence: 5 givenname: Rony surname: Snyders fullname: Snyders, Rony organization: Materia Nova Research Center – sequence: 6 givenname: Damien orcidid: 0000-0001-6703-1512 surname: Thiry fullname: Thiry, Damien email: Damien.Thiry@umons.ac.be organization: Chimie des Interactions Plasma-Surface (ChIPS), Institut Matériaux |
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| SubjectTerms | allyl alcohol atomic force microscopy chemical composition electron microscopy liquids polymerization polymers wavelengths |
| Title | Designing Nanostructured Organic-Based Material by Combining Plasma Polymerization and the Wrinkling Approach |
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