Controlling the dewetting morphologies of thin liquid films by switchable substrates

Stefan Zitz; Andrea Scagliarini; Jens Harting

doi:10.1103/PhysRevFluids.8.L122001

Controlling the dewetting morphologies of thin liquid films by switchable substrates

Stefan Zitz, Andrea Scagliarini, Jens Harting

Research output: Contribution to journal › Journal article › Research › peer-review

Abstract

Switchable and adaptive substrates emerged as valuable tools for the control of wetting and actuation of droplet motion. Here we report a computational study of the dynamics of an unstable thin liquid film deposited on a switchable substrate, modelled with a space and time varying contact angle. With a static pattern, all the fluid is drained into droplets located around contact angle minima, whereas for a sufficiently large rate of wettability variation a state consisting of metastable rivulets is observed. A criterion discriminating whether rivulets can be observed or not is identified in terms of a single dimensionless parameter. Finally, we show and explain theoretically how the film rupture times, droplet shape and rivulet life time depend on the pattern wavelength and speed.

Original language	English
Article number	L122001
Journal	Physical Review Fluids
Volume	8
Issue number	12
Number of pages	9
ISSN	2469-990X
DOIs	https://doi.org/10.1103/PhysRevFluids.8.L122001
Publication status	Published - 19 Dec 2023
Externally published	Yes

Keywords

Coatings
lattice Boltzmann
Thin fluid films
Thin film morphology
CFD
Drops and Bubbles
wetting

Link to document

10.1103/PhysRevFluids.8.L122001

https://arxiv.org/pdf/2112.09770.pdf

Cite this

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title = "Controlling the dewetting morphologies of thin liquid films by switchable substrates",

abstract = "Switchable and adaptive substrates emerged as valuable tools for the control of wetting and actuation of droplet motion. Here we report a computational study of the dynamics of an unstable thin liquid film deposited on a switchable substrate, modelled with a space and time varying contact angle. With a static pattern, all the fluid is drained into droplets located around contact angle minima, whereas for a sufficiently large rate of wettability variation a state consisting of metastable rivulets is observed. A criterion discriminating whether rivulets can be observed or not is identified in terms of a single dimensionless parameter. Finally, we show and explain theoretically how the film rupture times, droplet shape and rivulet life time depend on the pattern wavelength and speed.",

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T1 - Controlling the dewetting morphologies of thin liquid films by switchable substrates

AU - Zitz, Stefan

AU - Scagliarini, Andrea

AU - Harting, Jens

PY - 2023/12/19

Y1 - 2023/12/19

N2 - Switchable and adaptive substrates emerged as valuable tools for the control of wetting and actuation of droplet motion. Here we report a computational study of the dynamics of an unstable thin liquid film deposited on a switchable substrate, modelled with a space and time varying contact angle. With a static pattern, all the fluid is drained into droplets located around contact angle minima, whereas for a sufficiently large rate of wettability variation a state consisting of metastable rivulets is observed. A criterion discriminating whether rivulets can be observed or not is identified in terms of a single dimensionless parameter. Finally, we show and explain theoretically how the film rupture times, droplet shape and rivulet life time depend on the pattern wavelength and speed.

AB - Switchable and adaptive substrates emerged as valuable tools for the control of wetting and actuation of droplet motion. Here we report a computational study of the dynamics of an unstable thin liquid film deposited on a switchable substrate, modelled with a space and time varying contact angle. With a static pattern, all the fluid is drained into droplets located around contact angle minima, whereas for a sufficiently large rate of wettability variation a state consisting of metastable rivulets is observed. A criterion discriminating whether rivulets can be observed or not is identified in terms of a single dimensionless parameter. Finally, we show and explain theoretically how the film rupture times, droplet shape and rivulet life time depend on the pattern wavelength and speed.

KW - Coatings

KW - lattice Boltzmann

KW - Thin fluid films

KW - Thin film morphology

KW - CFD

KW - Drops and Bubbles

KW - wetting

U2 - 10.1103/PhysRevFluids.8.L122001

DO - 10.1103/PhysRevFluids.8.L122001

M3 - Journal article

SN - 2469-990X

VL - 8

JO - Physical Review Fluids

JF - Physical Review Fluids

IS - 12

M1 - L122001

ER -