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Main Authors: Reed, Joshua, Silva, Séforah Carolina Marques, Gutfreund, Philipp, Venzmer, Joachim, Gambaryan-Roisman, Tatiana, Schneck, Emanuel
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2507.15038
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author Reed, Joshua
Silva, Séforah Carolina Marques
Gutfreund, Philipp
Venzmer, Joachim
Gambaryan-Roisman, Tatiana
Schneck, Emanuel
author_facet Reed, Joshua
Silva, Séforah Carolina Marques
Gutfreund, Philipp
Venzmer, Joachim
Gambaryan-Roisman, Tatiana
Schneck, Emanuel
contents Certain trisiloxane surfactants have the remarkable property of being able to superspread: Small volumes of water rapidly wet large areas of hydrophobic surfaces. The molecular properties of the surfactants which govern this technologically relevant effect are still under debate. To gain a deeper understanding, the surfactant behaviour during the spreading process needs to be studied at molecular length scales. Here, we present neutron reflectivity analyses of two trisiloxane surfactants of similar chemical structure, of which only one exhibits superspreading properties. We present an approach to determining the composition of the adsorbed surfactant layer in spread surfactant films at the solid-liquid interface, accounting for contributions from attenuated back-reflections of the neutron beam in films with thicknesses in the range of several tens to hundreds of micrometers. Differences between superspreading and non-superspreading surfactants with regard to their volume fraction profiles at the solid/liquid interface obtained in the self-consistent analysis of the reflectivity curves are in agreement with a simple explanation of the difference in spreading behaviour based on thermodynamics.
format Preprint
id arxiv_https___arxiv_org_abs_2507_15038
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Neutron reflectometry on superspreading and non-superspreading trisiloxane surfactants
Reed, Joshua
Silva, Séforah Carolina Marques
Gutfreund, Philipp
Venzmer, Joachim
Gambaryan-Roisman, Tatiana
Schneck, Emanuel
Soft Condensed Matter
Certain trisiloxane surfactants have the remarkable property of being able to superspread: Small volumes of water rapidly wet large areas of hydrophobic surfaces. The molecular properties of the surfactants which govern this technologically relevant effect are still under debate. To gain a deeper understanding, the surfactant behaviour during the spreading process needs to be studied at molecular length scales. Here, we present neutron reflectivity analyses of two trisiloxane surfactants of similar chemical structure, of which only one exhibits superspreading properties. We present an approach to determining the composition of the adsorbed surfactant layer in spread surfactant films at the solid-liquid interface, accounting for contributions from attenuated back-reflections of the neutron beam in films with thicknesses in the range of several tens to hundreds of micrometers. Differences between superspreading and non-superspreading surfactants with regard to their volume fraction profiles at the solid/liquid interface obtained in the self-consistent analysis of the reflectivity curves are in agreement with a simple explanation of the difference in spreading behaviour based on thermodynamics.
title Neutron reflectometry on superspreading and non-superspreading trisiloxane surfactants
topic Soft Condensed Matter
url https://arxiv.org/abs/2507.15038