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Clear ‘omniphobic’ coating repels nearly all known liquids

Clear ‘omniphobic’ coating repels nearly all known liquids

Technology News |
By Rich Pell



Called “omniphobic” in materials science parlance, the new coating repels just about every known liquid. It’s the latest in a series of breakthrough coatings from the lab of Anish Tuteja, U-M associate professor of materials science and engineering.

The team’s earlier efforts produced durable coatings that repelled ice and water, and a more fragile omniphobic coating. The new omniphobic coating is the first that’s durable and clear. Easily applied to virtually any surface, it’s detailed in a paper published in ACS Applied Materials & Interfaces.

Tuteja envisions the new coating as a way to prevent surfaces from getting grimy, both in home and industry. It could work on computer displays, tables, floors and walls, for example.

He says the new coating is the latest result of the team’s systematic approach, which breaks with the traditional materials science “mix-and-see” approach. By mapping out the fundamental properties of a vast library of substances, they’re able to mathematically predict how any two will behave when they’re combined. This enables them to concoct a nearly endless variety of combinations with very specifically tailored properties.

“In the past, researchers might have taken a very durable substance and a very repellent substance and mixed them together,” Tuteja said. “But this doesn’t necessarily yield a durable, repellent coating.”

They discovered that even more important than durability or repellency is a property called “partial miscibility,” or the ability of two substances to mix together in exactly the right way. Chemicals that play well together make a much more durable product, even if they’re less durable individually.

In an advance that could grime-proof phone screens, countertops, camera lenses and countless other everyday items, a materials science researcher at the University of Michigan has demonstrated a smooth, durable, clear coating that swiftly sheds water, oils, alcohols and, yes, peanut butter. Image courtesy of Michigan Engineering.

Tweaking the miscibility of this particular coating posed a special challenge. To make a versatile coating that’s optically clear and smooth enough to repel oils and alcohols, the team needed to find a repellent ingredient and a binder with exactly the right amount of miscibility, as well as the ability to stick to a wide variety of substrates. They also needed a coating that would stay smooth during processing and drying.

“You can repel water with a rough surface that creates tiny pockets of air between the water and the surface, but those surfaces don’t always repel oils or alcohols because of their lower surface tension,” Tuteja said. “We needed a very smooth surface that interacts as little as possible with a variety of liquids, and we also needed ingredients that mix together very well, because too much phase separation between ingredients will scatter light.”

Ultimately, the team discovered that a mix of fluorinated polyurethane and a specialized fluid-repellent molecule called F-POSS would do the job. Their recipe forms a mixture that can be sprayed, brushed, dipped or spin-coated onto a wide variety of surfaces, where it binds tightly. While the surface can be scratched by a sharp object, it’s durable in everyday use. And its extremely precise level of phase separation makes it optically clear.

“The repellent and binder mix together well enough to make a clear coating, but there’s a very small amount of phase separation between them,” said Mathew Boban, a materials science and engineering graduate researcher and an author on the paper. “That separation allows the F-POSS to sort of float to the surface and create a nice repellent layer.”

Tuteja believes that the coating will be inexpensive by the time it sees the mass market–fluorinated polyurethane is an inexpensive, common ingredient. And while F-POSS is rare and expensive today, manufacturers are in the process of scaling it up to mass production, which should dramatically lower its cost.

The paper is titled “Smooth, All-Solid, Low-Hysteresis, Omniphobic Surfaces.” Support for the research was provided by the Air Force Office of Scientific Research, Office of Naval Research and National Science Foundation. U-M and the U.S. Air Force have jointly filed patent applications related to the technology.

www.umich.edu

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