Publication: Printable and Versatile Superhydrophobic Paper via Scalable Nonsolvent Armor Strategy
Printable and Versatile Superhydrophobic Paper via Scalable Nonsolvent Armor Strategy
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Liu, S., Chen, K., Salim, A., Li, J., Bottone, D., & Seeger, S. (2022). Printable and Versatile Superhydrophobic Paper via Scalable Nonsolvent Armor Strategy. ACS Nano, 16(6), 9442–9451. https://doi.org/10.1021/acsnano.2c02382
Abstract
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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
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- Liu, Shanqiu
- Chen, Kangwei
- Salim, Alma
- Li, Jingguo
- Seeger, Stefan
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Liu, S., Chen, K., Salim, A., Li, J., Bottone, D., & Seeger, S. (2022). Printable and Versatile Superhydrophobic Paper via Scalable Nonsolvent Armor Strategy. ACS Nano, 16(6), 9442–9451. https://doi.org/10.1021/acsnano.2c02382
