Publikation: Solutal Marangoni flow as the cause of ring stains from drying salty colloidal drops
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2019
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Marin, Alvaro
Noguera-Marín, Diego
Cabrerizo-Vílchez, Miguel A.
Rossi, Massimiliano
Kähler, Christian J.
Rodríguez Valverde, Miguel A.
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Physical Review Fluids. American Physical Society (APS). 2019, 4(4), 041601(R). eISSN 2469-990X. Available under: doi: 10.1103/physrevfluids.4.041601
Zusammenfassung
Evaporating salty droplets are ubiquitous in nature, in our home and in the laboratory. Interestingly, the transport processes in such apparently simple systems differ strongly from evaporating “freshwater” droplets since convection is partly inverted due to Marangoni stresses. Such an effect has crucial consequences to the salt crystallization process and to the deposits left behind. In this work we show unprecedented measurements that, not only confirm clearly the flow inversion, but also elucidate their impact on the distribution of nonvolatile solutes. Contrary to what has been often reported in the literature, such a flow reversal does not prevent the formation of ring-shaped stains: particles accumulate at the contact line driven solely by the interfacial flow. We can therefore conclude that the classical “coffee-stain effect” is not the only mechanism that can generate ring-shaped stains in evaporating droplets.
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MARIN, Alvaro, Stefan KARPITSCHKA, Diego NOGUERA-MARÍN, Miguel A. CABRERIZO-VÍLCHEZ, Massimiliano ROSSI, Christian J. KÄHLER, Miguel A. RODRÍGUEZ VALVERDE, 2019. Solutal Marangoni flow as the cause of ring stains from drying salty colloidal drops. In: Physical Review Fluids. American Physical Society (APS). 2019, 4(4), 041601(R). eISSN 2469-990X. Available under: doi: 10.1103/physrevfluids.4.041601BibTex
@article{Marin2019Solut-67434,
year={2019},
doi={10.1103/physrevfluids.4.041601},
title={Solutal Marangoni flow as the cause of ring stains from drying salty colloidal drops},
number={4},
volume={4},
journal={Physical Review Fluids},
author={Marin, Alvaro and Karpitschka, Stefan and Noguera-Marín, Diego and Cabrerizo-Vílchez, Miguel A. and Rossi, Massimiliano and Kähler, Christian J. and Rodríguez Valverde, Miguel A.},
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<dcterms:abstract>Evaporating salty droplets are ubiquitous in nature, in our home and in the laboratory. Interestingly, the transport processes in such apparently simple systems differ strongly from evaporating “freshwater” droplets since convection is partly inverted due to Marangoni stresses. Such an effect has crucial consequences to the salt crystallization process and to the deposits left behind. In this work we show unprecedented measurements that, not only confirm clearly the flow inversion, but also elucidate their impact on the distribution of nonvolatile solutes. Contrary to what has been often reported in the literature, such a flow reversal does not prevent the formation of ring-shaped stains: particles accumulate at the contact line driven solely by the interfacial flow. We can therefore conclude that the classical “coffee-stain effect” is not the only mechanism that can generate ring-shaped stains in evaporating droplets.</dcterms:abstract>
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