Physics

Scientists create the world’s cleanest water droplet and show why everything is dirty

As you may know from scrubbing the kitchen, getting a surface well and truly clean is a real challenge – and even more so for scientists working at microscopic levels.

No matter how pristine a material is engineered to be, it always ends up covered in a thin layer of molecules.

Now new research has produced the cleanest water droplets ever created in an attempt to figure out why it’s so hard to create perfect self-cleaning surfaces.

One hypothesis was that this layer of molecular dirt comes from water.

To investigate, researchers used pure ice frozen in a vacuum chamber to produce water droplets completely free of dirt and defects, and then dropped the liquid onto pristine surfaces made from titanium dioxide, known for its self-cleaning properties.

What they found was that the layer of molecular dirt that’s attracted to ultra-clean surfaces isn’t actually water, as previously believed. It’s actually something much more surprising.

This ‘dirt’ is made up of two organic acids, acetic acid (which adds to the sourness of vinegar) and formic acid, which is closely related.

oh so clean 2Graphic simulation of molecular layer. (Cornell University)

That’s a surprising finding, considering these acids are only found in very low quantities in normal air.

It could prompt a rethink on how surfaces attract and repel dirt, and even how future studies could ensure surfaces that are completely, spotlessly clean.

Even creating clean water was a challenge.

“In order to avoid impurities, experiments like these have to be carried out in a vacuum,” says one of the team, Ulrike Diebold from the Vienna University of Technology in Austria.

“Therefore, we had to create a water drop that never came into contact with the air, then place the drop on a titanium dioxide surface that had been scrupulously cleaned down to the atomic scale.”

The extra dirt layer – a single layer of molecules thick – only appeared when the titanium dioxide surface was taken out of the vacuum and exposed to the air. So it wasn’t the water making it dirty.

This explains why titanium dioxide, which is used in everything from car mirrors to building tiles, always attracts this extra layer, even after using the Sun’s energy to burn off most of the material that collects on top of it.

“Somehow these molecules on the surface are helping with this really interesting chemistry, the self-cleaning and oxidising properties,” says one of the researchers, Melissa Hines from Cornell University in New York.

“And we’re just beginning to understand what’s going on there.”

The scientists think that a special bidentate (or “two teeth”) binding happening at the chemical level helps the acids stick to the titanium dioxide, even though there are only a few parts-per-billion of these particles in air.

Other molecules that are much more common in air slip or wash right off the surface because they don’t have the same kind of binding mechanism.

To make sure they had their results right, the researchers tested the process of applying ultra-clean water droplets to titanium oxide in both the United States and Austria.

“It was crucial that we do the experiment in more than one place,” says Hines. “If we had just done it in Vienna, everyone would say, ‘For some reason, your building is full of vinegar.'”

There’s still a lot to unpack and investigate here, the researchers admit, but it’s a significant finding in helping us understand why these surfaces can’t get completely clean when they’re exposed to air.

At the same time, it explains how titanium dioxide can repel almost all other molecules – because of the acid it attracts.

“This result shows us how careful we need to be when conducting experiments of this kind,” says Ulrike Diebold. “Even tiny traces in the air, which could actually be considered insignificant, are sometimes decisive.”

The research has been published in Science.

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