Roll-to-Roll Manufacturing of Breathable Superhydrophobic Membranes.
breathability
human perspiration
laser fabrication
roll‐to‐roll manufacturing
superhydrophobicity
Journal
Small methods
ISSN: 2366-9608
Titre abrégé: Small Methods
Pays: Germany
ID NLM: 101724536
Informations de publication
Date de publication:
09 Apr 2024
09 Apr 2024
Historique:
revised:
23
03
2024
received:
09
01
2024
medline:
9
4
2024
pubmed:
9
4
2024
entrez:
9
4
2024
Statut:
aheadofprint
Résumé
Self-cleaning and anti-biofouling are both advantages for lotus-leaf-like superhydrophobic surfaces. Methods for creating superhydrophobicity, including chemical bonding low surface energy molecular fragments and constructing surface morphology with protrusions, micropores, and trapped micro airbags by traditional physical strategies, unfortunately, have encountered challenges. They often involve complex synthesis processes, stubborn chemical accumulation, brutal degradation, or infeasible calculation and imprecise modulation in fabricating hierarchical surface roughness. Here, a scalable method to prepare high-quality, breathable superhydrophobic membranes is proposed by developing a successive roll-to-roll laser manufacturing technique, which offers advantages over conventional fabrication approaches in enabling automatically large-scale production and ensuring cost-effectiveness. Nanosecond laser writing and femtosecond laser drilling produce surface microstructures and micropore arrays, respectively, endowing the membrane with superior antiwater capability with hierarchical microstructures forming a barrier and blocking water infiltration. The membrane's breathability is carefully optimized by tailoring micropore arrays to allow for the adequate passage of water vapor while maintaining superhydrophobicity. These membranes combine the benefits of anti-aqueous corrosive liquid behaviors, photothermal effects, thermoplastic properties, and stretchable performances as promising comprehensive materials in diverse scenes.
Identifiants
pubmed: 38593365
doi: 10.1002/smtd.202400038
doi:
Types de publication
Journal Article
Langues
eng
Sous-ensembles de citation
IM
Pagination
e2400038Subventions
Organisme : Hong Kong Innovation and Technology Commission
ID : MHP/060/21
Organisme : State Key Laboratory of Advanced Displays and Optoelectronics Technologies at HKUST
Organisme : The Hong Kong University of Science and Technology
ID : C6001-22Y
Informations de copyright
© 2024 The Authors. Small Methods published by Wiley‐VCH GmbH.
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