Adsorption-induced slip inhibition for polymer melts on ideal substrates

Adsorption-induced slip inhibition for polymer melts on ideal substrates

When modeling fluid flow over a solid surface, one must determine the slip velocity at the boundary. Here Ilton et al. perform experiments to quantify the slip length of polymer melts at a nearly ideal solid surface and capture them in a model involving the density of physically adsorbed polymer cha...

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Main Authors: Mark Ilton, Thomas Salez, Paul D. Fowler, Marco Rivetti, Mohammed Aly, Michael Benzaquen, Joshua D. McGraw, Elie Raphaël, Kari Dalnoki-Veress, Oliver Bäumchen
Format: Article
Language:English
Published: Nature Publishing Group 2018-03-01
Series:Nature Communications
Online Access:https://doi.org/10.1038/s41467-018-03610-4
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spelling doaj-7741b973a99e4aa9a6f8de6679bc80e02021-05-11T10:12:19ZengNature Publishing GroupNature Communications2041-17232018-03-01911710.1038/s41467-018-03610-4Adsorption-induced slip inhibition for polymer melts on ideal substratesMark Ilton0Thomas Salez1Paul D. Fowler2Marco Rivetti3Mohammed Aly4Michael Benzaquen5Joshua D. McGraw6Elie Raphaël7Kari Dalnoki-Veress8Oliver Bäumchen9Department of Physics & Astronomy, McMaster UniversityUniv. Bordeaux, CNRS, LOMA, UMR 5798Department of Physics & Astronomy, McMaster UniversityMax Planck Institute for Dynamics and Self-Organization (MPIDS)Département de Physique, Ecole Normale Supérieure/PSL Research UniversityLaboratoire de Physico-Chimie Théorique, UMR CNRS Gulliver 7083, ESPCI Paris, PSL Research UniversityDepartment of Physics & Astronomy, McMaster UniversityLaboratoire de Physico-Chimie Théorique, UMR CNRS Gulliver 7083, ESPCI Paris, PSL Research UniversityDepartment of Physics & Astronomy, McMaster UniversityMax Planck Institute for Dynamics and Self-Organization (MPIDS)When modeling fluid flow over a solid surface, one must determine the slip velocity at the boundary. Here Ilton et al. perform experiments to quantify the slip length of polymer melts at a nearly ideal solid surface and capture them in a model involving the density of physically adsorbed polymer chains.https://doi.org/10.1038/s41467-018-03610-4
collection DOAJ
language English
format Article
sources DOAJ
author Mark Ilton
Thomas Salez
Paul D. Fowler
Marco Rivetti
Mohammed Aly
Michael Benzaquen
Joshua D. McGraw
Elie Raphaël
Kari Dalnoki-Veress
Oliver Bäumchen
spellingShingle Mark Ilton
Thomas Salez
Paul D. Fowler
Marco Rivetti
Mohammed Aly
Michael Benzaquen
Joshua D. McGraw
Elie Raphaël
Kari Dalnoki-Veress
Oliver Bäumchen
Adsorption-induced slip inhibition for polymer melts on ideal substrates
Nature Communications
author_facet Mark Ilton
Thomas Salez
Paul D. Fowler
Marco Rivetti
Mohammed Aly
Michael Benzaquen
Joshua D. McGraw
Elie Raphaël
Kari Dalnoki-Veress
Oliver Bäumchen
author_sort Mark Ilton
title Adsorption-induced slip inhibition for polymer melts on ideal substrates
title_short Adsorption-induced slip inhibition for polymer melts on ideal substrates
title_full Adsorption-induced slip inhibition for polymer melts on ideal substrates
title_fullStr Adsorption-induced slip inhibition for polymer melts on ideal substrates
title_full_unstemmed Adsorption-induced slip inhibition for polymer melts on ideal substrates
title_sort adsorption-induced slip inhibition for polymer melts on ideal substrates
publisher Nature Publishing Group
series Nature Communications
issn 2041-1723
publishDate 2018-03-01
description When modeling fluid flow over a solid surface, one must determine the slip velocity at the boundary. Here Ilton et al. perform experiments to quantify the slip length of polymer melts at a nearly ideal solid surface and capture them in a model involving the density of physically adsorbed polymer chains.
url https://doi.org/10.1038/s41467-018-03610-4
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AT marcorivetti adsorptioninducedslipinhibitionforpolymermeltsonidealsubstrates
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