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Macroporous Superhydrophobic Coatings with Switchable Wettability Enabled by Smart Shape Memory Polymers

Calen J. Leverant, Yifan Zhang, Maria A. Cordoba, Sin‐Yen Leo, Nilesh Charpota, Curtis R. Taylor, Peng Jiang

2021Advanced Materials Interfaces20 citationsDOI

Abstract

Abstract Here, a facile bottom‐up nanofabrication technology for making smart superhydrophobic coatings with switchable wettability and tunable optical properties by integrating shape memory polymers (SMPs) with templated macroporous photonic crystals is reported. Thermoresponsive shape memory efforts exhibited by a polyurethane‐based shape memory copolymer enable reversible microstructural transitions between a “memorized” permanent configuration composing of highly ordered arrays of macropores and a temporary deformed structure with collapsed macropores. The unique macroporous SMP photonic crystal arrays with large surface roughness can entrap a large portion of air in the interconnecting macropores, resulting in superior superhydrophobic properties including high apparent water contact angle (CA > 160°) and low CA hysteresis. Importantly, the shape memory‐enabled microstructural transitions lead to drastic wettability switching from superhydrophobic (CA > 160°) to hydrophobic (CA ≈ 110°) or from oleophobic (CA ≈139° for hexadecane) to oleophilic (CA ≈ 80°). The large CA tunability (>50°) coupled with the simultaneous color change from shining iridescence to colorless associated with the same microstructural transition can not only provide a noninvasive means for visually indicating the surface wetting states, this favorable coupling between the wetting and optical behaviors of macroporous SMP photonic crystal membranes can also pave the way for developing new tunable nanooptical devices.

Topics & Concepts

Materials scienceWettingContact anglePolymerNanotechnologyMacroporeHysteresisSmart materialShape-memory polymerStructural colorationPhotonic crystalChemical engineeringComposite materialOptoelectronicsMesoporous materialOrganic chemistryCatalysisQuantum mechanicsEngineeringChemistryPhysicsSurface Modification and SuperhydrophobicityPolymer composites and self-healingAdvanced Sensor and Energy Harvesting Materials
Macroporous Superhydrophobic Coatings with Switchable Wettability Enabled by Smart Shape Memory Polymers | Litcius