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Rendering SiO2/Si Surfaces Omniphobic by Carving Gas-Entrapping Microtextures Comprising Reentrant and Doubly Reentrant Cavities or Pillars

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Scientific Article | Este trabalho apresenta protocolos de microfabricação para alcançar cavidades e pilares com perfis reentrantes e duplamente reentrantes
Rendering SiO2/Si Surfaces Omniphobic by Carving Gas-Entrapping Microtextures Comprising Reentrant and Doubly Reentrant Cavities or Pillars
One-Step Fabrication of Flexible Bioinspired Superomniphobic Surfaces
Rendering SiO2/Si Surfaces Omniphobic by Carving Gas-Entrapping Microtextures Comprising Reentrant and Doubly Reentrant Cavities or Pillars
One-Step Fabrication of Flexible Bioinspired Superomniphobic Surfaces
Rendering SiO2/Si Surfaces Omniphobic by Carving Gas-Entrapping Microtextures Comprising Reentrant and Doubly Reentrant Cavities or Pillars
Gradient wettability induced by deterministically patterned nanostructures
Rendering SiO2/Si Surfaces Omniphobic by Carving Gas-Entrapping Microtextures Comprising Reentrant and Doubly Reentrant Cavities or Pillars
Proof-of-Concept for Gas-Entrapping Membranes Derived from Water-Loving SiO2 /Si/SiO2 Wafers for Green Desalination.
Rendering SiO2/Si Surfaces Omniphobic by Carving Gas-Entrapping Microtextures Comprising Reentrant and Doubly Reentrant Cavities or Pillars
Realizing surface amphiphobicity using 3D printing techniques: A critical move towards manufacturing low-cost reentrant geometries - ScienceDirect
Rendering SiO2/Si Surfaces Omniphobic by Carving Gas-Entrapping Microtextures Comprising Reentrant and Doubly Reentrant Cavities or Pillars
A molecular to macro level assessment of direct contact membrane distillation for separating organics from water - ScienceDirect
Rendering SiO2/Si Surfaces Omniphobic by Carving Gas-Entrapping Microtextures Comprising Reentrant and Doubly Reentrant Cavities or Pillars
One-Step Fabrication of Flexible Bioinspired Superomniphobic Surfaces
Rendering SiO2/Si Surfaces Omniphobic by Carving Gas-Entrapping Microtextures Comprising Reentrant and Doubly Reentrant Cavities or Pillars
Sankara Narayana Moorthi Arunachalam - Doctoral Researcher - KAUST
Rendering SiO2/Si Surfaces Omniphobic by Carving Gas-Entrapping Microtextures Comprising Reentrant and Doubly Reentrant Cavities or Pillars
Mitigating cavitation erosion using biomimetic gas-entrapping microtextured surfaces (GEMS)
Rendering SiO2/Si Surfaces Omniphobic by Carving Gas-Entrapping Microtextures Comprising Reentrant and Doubly Reentrant Cavities or Pillars
Mitigating cavitation erosion using biomimetic gas-entrapping microtextured surfaces (GEMS)
Rendering SiO2/Si Surfaces Omniphobic by Carving Gas-Entrapping Microtextures Comprising Reentrant and Doubly Reentrant Cavities or Pillars
Artistic silhouette rendering pipeline.
Rendering SiO2/Si Surfaces Omniphobic by Carving Gas-Entrapping Microtextures Comprising Reentrant and Doubly Reentrant Cavities or Pillars
Steiner's Roman surface (11) with (a) plot depth = 9 and (b) plot depth
Rendering SiO2/Si Surfaces Omniphobic by Carving Gas-Entrapping Microtextures Comprising Reentrant and Doubly Reentrant Cavities or Pillars
Gradient wettability induced by deterministically patterned nanostructures
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