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Auteurs principaux: Kraft, Louisa E., Lucht, Jens, Berner, Fiona, Hoeppe, Hannes P., Eklund, Tobias, Liu, Yizhi, Osterhoff, Markus, Westermeier, Fabian, Roseker, Wojciech, Salditt, Tim, Butt, Hans-Jürgen, Amann-Winkel, Katrin
Format: Preprint
Publié: 2025
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Accès en ligne:https://arxiv.org/abs/2506.18665
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author Kraft, Louisa E.
Lucht, Jens
Berner, Fiona
Hoeppe, Hannes P.
Eklund, Tobias
Liu, Yizhi
Osterhoff, Markus
Westermeier, Fabian
Roseker, Wojciech
Salditt, Tim
Butt, Hans-Jürgen
Amann-Winkel, Katrin
author_facet Kraft, Louisa E.
Lucht, Jens
Berner, Fiona
Hoeppe, Hannes P.
Eklund, Tobias
Liu, Yizhi
Osterhoff, Markus
Westermeier, Fabian
Roseker, Wojciech
Salditt, Tim
Butt, Hans-Jürgen
Amann-Winkel, Katrin
contents Wetting of solid surfaces by a liquid is important for many natural and industrial processes such as printing, painting and coating. However, a quantitative description of the dynamic receding and advancing contact angle is still debated, in particular for aqueous solutions. One reason for our lack of quantitative understanding is the limited spatial resolution of currently used optical methods. We therefore present a new approach to access the sub-microscopic region. We use X-ray phase contrast imaging to measure the dynamic receding contact angle on a moving glass fiber of 17 um diameter. The fiber was pulled out of a liquid bath which was filled with a mixture of glycerol and Milli-Q water. The dynamic receding contact angle decreased with increasing contact line velocity for all mixtures. In the holograms we achieved a resolution of 50 nm/pixel with a spatial error of 450 nm. This spatial error is due to an extended surface region of the fiber and the liquid surface in the holograms. Our results demonstrate the feasibility of X-ray holography as a method to investigate dynamic contact angle phenomena and thereby opening pathways to higher spatial and temporal resolution.
format Preprint
id arxiv_https___arxiv_org_abs_2506_18665
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Three-phase contact line dynamics on moving fibers measured by X-ray holography
Kraft, Louisa E.
Lucht, Jens
Berner, Fiona
Hoeppe, Hannes P.
Eklund, Tobias
Liu, Yizhi
Osterhoff, Markus
Westermeier, Fabian
Roseker, Wojciech
Salditt, Tim
Butt, Hans-Jürgen
Amann-Winkel, Katrin
Chemical Physics
Wetting of solid surfaces by a liquid is important for many natural and industrial processes such as printing, painting and coating. However, a quantitative description of the dynamic receding and advancing contact angle is still debated, in particular for aqueous solutions. One reason for our lack of quantitative understanding is the limited spatial resolution of currently used optical methods. We therefore present a new approach to access the sub-microscopic region. We use X-ray phase contrast imaging to measure the dynamic receding contact angle on a moving glass fiber of 17 um diameter. The fiber was pulled out of a liquid bath which was filled with a mixture of glycerol and Milli-Q water. The dynamic receding contact angle decreased with increasing contact line velocity for all mixtures. In the holograms we achieved a resolution of 50 nm/pixel with a spatial error of 450 nm. This spatial error is due to an extended surface region of the fiber and the liquid surface in the holograms. Our results demonstrate the feasibility of X-ray holography as a method to investigate dynamic contact angle phenomena and thereby opening pathways to higher spatial and temporal resolution.
title Three-phase contact line dynamics on moving fibers measured by X-ray holography
topic Chemical Physics
url https://arxiv.org/abs/2506.18665