Physical ageing of spreading droplets in a viscous ambient phase

Physical ageing of spreading droplets in a viscous ambient phase

Abstract In this work, we study the spontaneous spreading of water droplets immersed in oil and report an unexpectedly slow kinetic regime not described by previous spreading models. We can quantitatively describe the observed regime crossover and spreading rate in the late kinetic regime with an an...

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Bibliographic Details
Main Authors: Bibin M. Jose, Dhiraj Nandyala, Thomas Cubaud, Carlos E. Colosqui
Format: Article
Language:English
Published: Nature Publishing Group 2018-09-01
Series:Scientific Reports
Subjects:
Droplet Spreading
Nanoscale Topographical Features
Crossover Regime
Wilhelmy Plate Measurements
Physical Aging Phenomenon
Online Access:https://doi.org/10.1038/s41598-018-32392-4
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spelling doaj-8e51adf66d54400295578cd7a40d94932020-12-08T04:10:35ZengNature Publishing GroupScientific Reports2045-23222018-09-01811810.1038/s41598-018-32392-4Physical ageing of spreading droplets in a viscous ambient phaseBibin M. Jose0Dhiraj Nandyala1Thomas Cubaud2Carlos E. Colosqui3Department of Mechanical Engineering, Stony Brook UniversityDepartment of Mechanical Engineering, Stony Brook UniversityDepartment of Mechanical Engineering, Stony Brook UniversityDepartment of Mechanical Engineering, Stony Brook UniversityAbstract In this work, we study the spontaneous spreading of water droplets immersed in oil and report an unexpectedly slow kinetic regime not described by previous spreading models. We can quantitatively describe the observed regime crossover and spreading rate in the late kinetic regime with an analytical model considering the presence of periodic metastable states induced by nanoscale topographic features (characteristic area ~4 nm2, height ~1 nm) observed via atomic force microscopy. The analytical model proposed in this work reveals that certain combinations of droplet volume and nanoscale topographic parameters can significantly hinder or promote wetting processes such as spreading, wicking, and imbibition.https://doi.org/10.1038/s41598-018-32392-4Droplet SpreadingNanoscale Topographical FeaturesCrossover RegimeWilhelmy Plate MeasurementsPhysical Aging Phenomenon
collection DOAJ
language English
format Article
sources DOAJ
author Bibin M. Jose
Dhiraj Nandyala
Thomas Cubaud
Carlos E. Colosqui
spellingShingle Bibin M. Jose
Dhiraj Nandyala
Thomas Cubaud
Carlos E. Colosqui
Physical ageing of spreading droplets in a viscous ambient phase
Scientific Reports
Droplet Spreading
Nanoscale Topographical Features
Crossover Regime
Wilhelmy Plate Measurements
Physical Aging Phenomenon
author_facet Bibin M. Jose
Dhiraj Nandyala
Thomas Cubaud
Carlos E. Colosqui
author_sort Bibin M. Jose
title Physical ageing of spreading droplets in a viscous ambient phase
title_short Physical ageing of spreading droplets in a viscous ambient phase
title_full Physical ageing of spreading droplets in a viscous ambient phase
title_fullStr Physical ageing of spreading droplets in a viscous ambient phase
title_full_unstemmed Physical ageing of spreading droplets in a viscous ambient phase
title_sort physical ageing of spreading droplets in a viscous ambient phase
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2018-09-01
description Abstract In this work, we study the spontaneous spreading of water droplets immersed in oil and report an unexpectedly slow kinetic regime not described by previous spreading models. We can quantitatively describe the observed regime crossover and spreading rate in the late kinetic regime with an analytical model considering the presence of periodic metastable states induced by nanoscale topographic features (characteristic area ~4 nm2, height ~1 nm) observed via atomic force microscopy. The analytical model proposed in this work reveals that certain combinations of droplet volume and nanoscale topographic parameters can significantly hinder or promote wetting processes such as spreading, wicking, and imbibition.
topic Droplet Spreading
Nanoscale Topographical Features
Crossover Regime
Wilhelmy Plate Measurements
Physical Aging Phenomenon
url https://doi.org/10.1038/s41598-018-32392-4
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AT dhirajnandyala physicalageingofspreadingdropletsinaviscousambientphase
AT thomascubaud physicalageingofspreadingdropletsinaviscousambientphase
AT carlosecolosqui physicalageingofspreadingdropletsinaviscousambientphase
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