Journal Article10.1021/ACS.NANOLETT.5B02394
Controlled Three-Dimensional Hierarchical Structuring by Memory-Based, Sequential Wrinkling
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TL;DR: This materials system provides a general approach for nanomanufacturing based on bottom-up sequential wrinkling that will benefit a diverse range of applications and especially those that require large area (>cm(2)), multiscale, three-dimensional patterns.
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Abstract: This paper describes how a memory-based, sequential wrinkling process can transform flat polystyrene sheets into multiscale, three-dimensional hierarchical textures. Multiple cycles of plasma-mediated skin growth followed by directional strain relief of the substrate resulted in hierarchical architectures with characteristic generational (G) features. Independent control over wrinkle wavelength and wrinkle orientation for each G was achieved by tuning plasma treatment time and strain-relief direction for each cycle. Lotus-type superhydrophobicity was demonstrated on three-dimensional G1–G2–G3 hierarchical wrinkles as well as tunable superhydrophilicity on these same substrates after oxygen plasma. This materials system provides a general approach for nanomanufacturing based on bottom-up sequential wrinkling that will benefit a diverse range of applications and especially those that require large area (>cm2), multiscale, three-dimensional patterns.
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Citations
•Journal Article
Soft matter with hard skin : From skin wrinkles to templating and material characterization
Jan Genzer,Jan Groenewold +1 more
TL;DR: This paper discusses how and why wrinkles/buckles form in various materials, and describes several examples from everyday life that demonstrate that wrinkling or buckling is indeed a commonplace phenomenon that spans a multitude of length scales.
670
Stretchable Superhydrophobicity from Monolithic, Three-Dimensional Hierarchical Wrinkles
TL;DR: Stretchable superhydrophobicity was possible because of the monolithic nature of the hierarchical wrinkles as well as partial preservation of nanoscale structures under stretching.
133
Bioinspired Multiscale Wrinkling Patterns on Curved Substrates: An Overview
TL;DR: In this review, fundamental wrinkling mechanics and recent advances in both fabrications and applications of the wrinkling patterns on curved substrates are summarized.
Microscopic Dimensions Engineering: Stepwise Manipulation of the Surface Wettability on 3D Substrates for Oil/Water Separation.
Ran Du,Xin Gao,Qingliang Feng,Qingliang Feng,Qiuchen Zhao,Pan Li,Shibin Deng,Liurong Shi,Jin Zhang +8 more
TL;DR: Combined theoretical modeling and experiments give the relationship of surface roughness and superhydrophobic properties, important for guiding the design of superior superwettable materials for water remediation and other uses.
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