Litcius/Paper detail

Printable and Versatile Superhydrophobic Paper via Scalable Nonsolvent Armor Strategy

Shanqiu Liu, Kangwei Chen, Alma Salim, Jingguo Li, Davide Bottone, Stefan Seeger

2022ACS Nano28 citationsDOIOpen Access PDF

Abstract

Despite great scientific and industrial interest in waterproof cellulosic paper, its real world application is hindered by complicated and costly fabrication processes, limitations in scale-up production, and use of organic solvents. Furthermore, simultaneously achieving nonwetting properties and printability on paper surfaces still remains a technical and chemical challenge. Herein, we demonstrate a nonsolvent strategy for scalable and fast fabrication of waterproofing paper through in situ surface engineering with polysilsesquioxane nanorods (PSNRs). Excellent superhydrophobicity is attained on the functionalized paper surface with a water contact angle greater than 160°. Notably, the engineered paper features outstanding printability and writability, as well as greatly enhanced strength and integrity upon prolonged exposure to water (tensile strength ≈ 9.0 MPa). Additionally, the PSNRs concurrently armor paper-based printed items and artwork with waterproofing, self-cleaning, and antimicrobial functionalities without compromising their appearance, readability, and mechanical properties. We also demonstrate that the engineered paper holds the additional advantages of easy processing, low cost, and mechanochemical robustness, which makes it particularly promising for real world applications.

Topics & Concepts

WaterproofingMaterials scienceFabricationNanotechnologyContact angleUltimate tensile strengthComposite materialAlternative medicinePathologyMedicineSurface Modification and SuperhydrophobicityElectrospun Nanofibers in Biomedical ApplicationsAdvanced Sensor and Energy Harvesting Materials