Wetting Effect on Patterned Substrates

to related objects

Abstract: A droplet deposited on a solid substrate leads to the wetting phenomenon. A natural observation is the lotus effect, known for its superhydrophobicity. This special feature is engendered by the structured microstructure of the lotus leaf, namely, surface heterogeneity, as explained by the quintessential Cassie–Wenzel theory (CWT). In this work, recent designs of functional substrates are overviewed based on the CWT via manipulating the contact area between the liquid and the solid substrate as well as the intrinsic Young's contact angle. Moreover, the limitation of the CWT is discussed. When the droplet size is comparable to the surface heterogeneity, anisotropic wetting morphology often appears, which is beyond the scope of the Cassie–Wenzel work. In this case, several recent studies addressing the anisotropic wetting effect on chemically and mechanically patterned substrates are elucidated. Surface designs for anisotropic wetting morphologies are summarized with respect to the shape and the arrangement of the surface heterogeneity, the droplet volume, the deposition position of the droplet, as well as the mean curvature of the surface heterogeneity. A thermodynamic interpretation for the wetting effect and the corresponding open questions are presented at the end.

Location
Deutsche Nationalbibliothek Frankfurt am Main
Extent
Online-Ressource
Language
Englisch

Bibliographic citation
Wetting Effect on Patterned Substrates ; day:08 ; month:05 ; year:2023 ; extent:23
Advanced materials ; (08.05.2023) (gesamt 23)

Creator
Wang, Fei
Wu, Yanchen
Nestler, Britta

DOI
10.1002/adma.202210745
URN
urn:nbn:de:101:1-2023051115061916079457
Rights
Open Access; Der Zugriff auf das Objekt ist unbeschränkt möglich.
Last update
14.08.2025, 10:55 AM CEST

Data provider

This object is provided by:
Deutsche Nationalbibliothek. If you have any questions about the object, please contact the data provider.
Show original at data provider

Associated

Other Objects (12)

Triple-point wetting on rough substrates

Triple-point wetting on rough substrates

Constrained sintering of patterned ceramic films on stiff substrates

Hochschulschrift

Constrained sintering of patterned ceramic films on stiff substrates

Constrained Sintering of Patterned Ceramic Films on Stiff Substrates

Hochschulschrift

Constrained Sintering of Patterned Ceramic Films on Stiff Substrates

Epitaxial overgrowth of II-VI compounds on patterned substrates

Epitaxial overgrowth of II-VI compounds on patterned substrates

Triple-Point Wetting of Molecular Hydrogen on Tailored Substrates

Triple-Point Wetting of Molecular Hydrogen on Tailored Substrates

Wetting Transparency of Single‐Layer Graphene on Liquid Substrates

Wetting Transparency of Single‐Layer Graphene on Liquid Substrates

Wetting and Evaporation of Solvents on Thin Soluble Substrates

Wetting and Evaporation of Solvents on Thin Soluble Substrates

Wetting States of Droplets on Patterned Surfaces and in an Electric Field

Wetting States of Droplets on Patterned Surfaces and in an Electric Field

Ordered GeSi nanorings grown on patterned Si (001) substrates

Ordered GeSi nanorings grown on patterned Si (001) substrates

Statics and dynamics of simple fluids on chemically patterned substrates

Hochschulschrift

Statics and dynamics of simple fluids on chemically patterned substrates

Influence of stray fields on the switching-field distribution for bit-patterned media based on pre-patterned substrates

Influence of stray fields on the switching-field distribution for bit-patterned media based on pre-patterned substrates

Manipulation of wetting morphologies in topographically structured substrates

Hochschulschrift

Manipulation of wetting morphologies in topographically structured substrates

Related objects