Three-Dimensional Printed Surfaces Inspired by Bi-Gaussian Stratified Plateaus | Zendy

Songtao Hu | Zendy; Xiaobao Cao | Zendy; Tom Reddyhoff | Zendy; Debashis Puhan | Zendy; Weifeng Huang | Zendy; Xi Shi | Zendy; Zhike Peng | Zendy; Daniele Dini | Zendy

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Three-Dimensional Printed Surfaces Inspired by Bi-Gaussian Stratified Plateaus

Author(s) -

Songtao Hu,

Xiaobao Cao,

Tom Reddyhoff,

Debashis Puhan,

Weifeng Huang,

Xi Shi,

Zhike Peng,

Daniele Dini

Publication year - 2019

Publication title -

acs applied materials and interfaces

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 2.535

H-Index - 228

eISSN - 1944-8252

pISSN - 1944-8244

DOI - 10.1021/acsami.9b04020

Subject(s) - wetting , materials science , plateau (mathematics) , nanotechnology , gaussian curvature , surface (topology) , gaussian , lithography , contact angle , chemical physics , composite material , geometry , optoelectronics , physics , curvature , mathematical analysis , mathematics , quantum mechanics

Wettability of artificial surfaces is attracting increasing attention for its relevant technological applications. Functional performance is often achieved by mimicking the topographical structures found in natural flora and fauna; however, surface attributes inspired by geological landscapes have so far escaped attention. We reproduced a stratified morphology of plateaus with a bi-Gaussian height distribution using a three-dimensional direct laser lithography. The plateau-inspired artificial surface exhibits a hydrophobic behavior even if fabricated from a hydrophilic material, giving rise to a new wetting mechanism that divides the well-known macroscopic Wenzel and Cassie states into four substates. We have also successfully applied the plateau-inspired structure to droplet manipulation.

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