[HTML][HTML] Superhydrophobic self-similar nonwoven-titanate nanostructured materials
Hypothesis Self-similarity is a scale-invariant irregularity that can assist in designing a robust
superhydrophobic material. A combinatorial design strategy involving self-similarity and dual …
superhydrophobic material. A combinatorial design strategy involving self-similarity and dual …
[HTML][HTML] Ultrasonic fortification of interfiber autohesive contacts in meltblown nonwoven materials
Autohesion is a unique class of adhesion that enables the bonding of two identical surfaces
by establishing intimate contact at interfaces. Creating intimacy between two identical …
by establishing intimate contact at interfaces. Creating intimacy between two identical …
[HTML][HTML] Droplet navigation on metastable hydrophobic and superhydrophobic nonwoven materials
Rendering any surface non-wettable requires it to be clean and dry after the droplet is
deposited or impacted. Leveraging and quantifying the non-periodic or random topology …
deposited or impacted. Leveraging and quantifying the non-periodic or random topology …
[PDF][PDF] Journal of Advanced Joining Processes
A Rawal, D Singh, A Maurya, S Shukla… - Journal of Advanced …, 2024 - researchgate.net
Autohesion is a unique class of adhesion that enables the bonding of two identical surfaces
by establishing intimate contact at interfaces. Creating intimacy between two identical …
by establishing intimate contact at interfaces. Creating intimacy between two identical …
A combinatorial approach to the elastic response of electrospun mats: Architectural framework and single fiber properties
Electrospun is a unique class of porous and heterogeneous materials with multi-length-
scales constituents that offer a rich variety of surface functionalities to serve a host of …
scales constituents that offer a rich variety of surface functionalities to serve a host of …
Developing “Rose-Petal” Superhydrophobicity Using Aligned Electrospun Fibers
Y Zhang - … of Surfaces Dressed by Electrospun Fibers, 2024 - Springer
Developing “Rose-Petal” Superhydrophobicity Using Aligned Electrospun Fibers | SpringerLink
Skip to main content Advertisement SpringerLink Account Menu Find a journal Publish with us …
Skip to main content Advertisement SpringerLink Account Menu Find a journal Publish with us …
Superhydrophobicity of Surfaces Decorated by Electrospun Micro-and Nano-fibers
Y Zhang - 2023 - uwspace.uwaterloo.ca
Electrospinning is proven to be an efficient and versatile technique for developing super-
hydrophobicity based on the surface roughness provided by the generated micro-and nano …
hydrophobicity based on the surface roughness provided by the generated micro-and nano …
Introductory remarks on polymers and polymer surfaces
S Cometa, L Sabbatini - Walter de Gruyter GmbH & Co KG: Berlin …, 2014 - degruyter.com
Polymers are everywhere in our everyday life. Both synthetic and natural polymers have
unique properties (chemical, mechanical, electrical, and thermal), which make them not …
unique properties (chemical, mechanical, electrical, and thermal), which make them not …
[PDF][PDF] The Role of IR Decoration in Activating Multi-Scale Fractal Surface in Porous Ni Dbht for the Oer
M Hao, BD Assresahegn, J Gaudet, L Roué… - Available at SSRN … - papers.ssrn.com
Herein, we report a method to decorate 3D fractal Ni electrodes with Ir atoms via a galvanic
replacement reaction. Iridium atoms are present as 4.3 nm diameter nanoclusters. The …
replacement reaction. Iridium atoms are present as 4.3 nm diameter nanoclusters. The …
Design of 3-dimensional Ni-based electrocatalysts for the oxygen evolution reaction.
M Hao - 2022 - espace.inrs.ca
Water electrolysis is recognized as one of the most promising technologies for sustainable
energy conversion. A typical water electrolysis process involves two gas evolution reactions …
energy conversion. A typical water electrolysis process involves two gas evolution reactions …