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Multifunctional Underwater Adhesive Film Enabled by a Single-Component Poly(ionic liquid)

Binmin Wang, Chenyu Qiao, Yong‐Lei Wang, Xiaoxiao Dong, Wangqing Zhang, Yan Lü, Jiayin Yuan, Hongbo Zeng, Hong Wang

2023ACS Nano48 citationsDOI

Abstract

Tremendous efforts have been devoted to exploiting synthetic wet adhesives for real-life applications. However, developing low-cost, robust, and multifunctional wet adhesive materials remains a considerable challenge. Herein, a wet adhesive composed of a single-component poly(ionic liquid) (PIL) that enables fast and robust underwater adhesion is reported. The PIL adhesive film possesses excellent stretchability and flexibility, enabling its anchoring on target substrates regardless of deformation and water scouring. Surface force measurements show the PIL can achieve a maximum adhesion of 56.7 mN·m –1 on diverse substrates (both hydrophilic and hydrophobic substrates) in aqueous media, within ∼30 s after being applied. The adhesion mechanisms of the PIL were revealed via the force measurements, and its robust wet adhesive capacity was ascribed to the synergy of different non-covalent interactions, such as of hydrogen bonding, cation−π, electrostatic, and van der Waals interactions. Surprisingly, this PIL adhesive film exhibited impressive underwater sound absorption capacity. The absorption coefficient of a 0.7 mm-thick PIL film to 4–30 kHz sound waves could be as high as 0.80–0.92. This work reports a multifunctional PIL wet adhesive that has promising applications in many areas and provides deep insights into interfacial interaction mechanisms underlying the wet adhesion capability of PILs.

Topics & Concepts

AdhesiveMaterials scienceIonic liquidAdhesionIonic bondingvan der Waals forceAbsorption (acoustics)Aqueous solutionChemical engineeringNanotechnologyComposite materialFlexibility (engineering)Covalent bondMoleculeOrganic chemistryChemistryLayer (electronics)IonEngineeringStatisticsCatalysisMathematicsAdvanced Sensor and Energy Harvesting MaterialsPolymer Surface Interaction StudiesDielectric materials and actuators
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