Issue 25, 2024, Issue in Progress

Application of 3D printing for fabrication of superhydrophobic surfaces with reversible wettability

Abstract

Control of surface wettability is needed in many applications. The potential use of 3D printing technology to gain control over wettability remains largely unexplored. In this paper, Fused Deposition Molding (FDM) 3D printing technology was utilized to print polylactic acid (PLA) microplate array structures to generate superhydrophobic surfaces with reversable wetting properties. This was achieved by spraying polydimethylsiloxane (PDMS) and silica (SiO2) solutions, over microplate surfaces. Anisotropic wetting properties were also achieved based on the surface structure design. Due to the shape memory properties of PLA, the morphology of the microplate arrays could be switched between the original upright shape and deformed shape. Through alternating pressing and heating treatments, the microplate arrays showed anisotropic wettability switching. The difference between the contact angle (CA) and sliding angle (SA) of water droplets on the original surface parallel to and perpendicular to the microplate array direction were ΔCA = 7° and ΔSA = 3° respectively, and those on the surface of the deformed microplate array were ΔCA = 7° and ΔSA = 21°, respectively. This process enabled reversible alteration in the wetting behavior of water droplets on the original and deformed surfaces between sliding and sticking states. PLA-based shape memory anisotropic superhydrophobic surfaces with tunable adhesion were successfully applied to rewritable platforms, micro droplet reaction platforms, and gas sensing.

Graphical abstract: Application of 3D printing for fabrication of superhydrophobic surfaces with reversible wettability

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Article information

Article type
Paper
Submitted
12 Apr 2024
Accepted
27 May 2024
First published
03 Jun 2024
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2024,14, 17684-17695

Application of 3D printing for fabrication of superhydrophobic surfaces with reversible wettability

W. Zhao, Y. Zhan, W. Li, S. Hao and A. Amirfazli, RSC Adv., 2024, 14, 17684 DOI: 10.1039/D4RA02742F

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