Superhydrophobic coating protects without the price
A new class of superhydrophobic nanomaterials might simplify the process of protecting surfaces from water.
A new class of superhydrophobic nanomaterials might simplify the process of protecting surfaces from water.
Nanomaterials
Dec 10, 2015
0
1450
A trio of researchers at Fudan University has improved a mathematical model to allow it to predict the shape of different leaf types on lotus plants. In their paper published in the journal Physical Review Letters, the group ...
When drops of water touch the surface of a lotus flower leaf, they form beads and roll off, collecting dust particles along the way. In contrast, water droplets on a rose petal also form beads, but remain pinned to the petal's ...
Materials Science
Dec 31, 2019
1
176
Taking a cue from the self-cleaning properties of the lotus leaf, researchers at Ben-Gurion University of the Negev have shed new light on microscopic forces and mechanisms that can be optimized to remove dust from solar ...
Nanomaterials
Dec 9, 2019
3
542
Technologies like solar panels and LEDs require a cover material that repels water, dirt and oil while still letting plenty of light through. There is also interest in new flexible materials so these devices can be incorporated ...
Materials Science
Jun 19, 2019
0
8
It's a popular phrase used to describe people, things, and ideas that just don't mix—"like oil and water." Except it's not entirely true. Oil and water can mix, and can be very difficult to completely separate when brought ...
Polymers
Mar 22, 2019
1
1070
With 3.5 billion years of research and development under her belt, Mother Nature could be considered the world's most experienced biological engineer. Sure, her methods may appear haphazard at times, but her track record ...
Nanomaterials
Jan 24, 2013
0
0
(Phys.org) -- For many years, scientists have been pursuing ways to mimic the perplexing capability of the lotus leaf to repel water. Lotus leaves hate water so much that droplets effortlessly roll off the surface, keeping ...
General Physics
Jun 14, 2012
0
0
(PhysOrg.com) -- The first glimpse of miniscule air bubbles that keep water from wetting a super non-stick surface could lead to new super-slick materials with applications in energy, medicine, and more.
Nanophysics
Feb 24, 2010
2
0
(PhysOrg.com) -- Researchers at Rensselaer Polytechnic Institute have discovered a new, more precise method for measuring how much — or how little - nanoscale interfaces love water.
Nanophysics
Dec 3, 2009
0
1