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Water is surprisingly ordered on the nanoscale

Date:
May 24, 2017
Source:
Ecole Polytechnique Fédérale de Lausanne
Summary:
The surface of minuscule water drops with a 100 nm size is surprisingly ordered, new research shows. At room temperature, the surface water molecules of these droplets have much stronger interactions than a normal water surface. The structural difference corresponds to a difference in temperature of -50°C, which may shed new light on a variety of atmospheric, biological and even geological processes.
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Nanometric-sized water drops are everywhere -- in the air as droplets or aerosols, in our bodies as medication, and in Earth, within rocks and oil fields. To understand the behavior of these drops, it is necessary to know how they interact with their hydrophobic environment. This interaction takes places at the curved droplet interface, a sub-nanometric region that surrounds the small pocket of water. Researchers from EPFL, in collaboration with the institute AMOLF in the Netherlands, were able to observe what was going on in this particular region. They discovered that molecules on the surface of the drops were much more ordered than expected. Their surprising results have been published in Nature Communications. They pave the way to a better understanding of atmospheric, biological and geological processes.

Unique perspective on miniscule droplets

At EPFL, Sylvie Roke, director of the Julia Jacobi Chair of Photomedicine-Laboratory for Fundamental BioPhotonics, has developed a unique method for examining the surface of these droplets that are as thick as one thousandth of a hair, with a volume of an attoliter (18 zeros behind the comma). "The method involves overlapping ultrashort laser pulses in a mixture of water droplets in liquid oil and detecting photons that are scattered only from the interface," explains Roke. "These photons have the sum frequency of the incoming photons and are thus of a different color. With this newly generated color we can know the structure of the only the interface."

Hydrogen bonding as strong as in ice

The surface of the water droplets turns out to be much more ordered than that of normal water and is comparable to super cooled (liquid < 0 °C water) water in which the water molecules have very strong hydrogen bond interactions. In ice, these interactions lead to a stable tetrahedral surrounding of each water molecule. Surprisingly, this type of structure was found on the surface of the droplets even at the room temperature -- 50 °C above were it would normally appear.

Chemical processes

This research provides valuable insight into the properties of nanometric water drops. "The chemical properties of these drops depend on how the water molecules are organized on the surface, so it's really important to understand what's going on there," explained Roke. Further research could target the surface properties of water droplets with adding salt, a more realistic model of marine aerosols that consist of salty water surrounded by a hydrophobic environment. Salt may either enhance the water network or reduce its strength. "Or, it may not do anything at all. Given the surprising results found here, we can only speculate," says Roke.


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Materials provided by Ecole Polytechnique Fédérale de Lausanne. Note: Content may be edited for style and length.


Journal Reference:

  1. Nikolay Smolentsev, Wilbert J. Smit, Huib J. Bakker, Sylvie Roke. The interfacial structure of water droplets in a hydrophobic liquid. Nature Communications, 2017; 8: 15548 DOI: 10.1038/ncomms15548

Cite This Page:

Ecole Polytechnique Fédérale de Lausanne. "Water is surprisingly ordered on the nanoscale." ScienceDaily. ScienceDaily, 24 May 2017. <www.sciencedaily.com/releases/2017/05/170524084349.htm>.
Ecole Polytechnique Fédérale de Lausanne. (2017, May 24). Water is surprisingly ordered on the nanoscale. ScienceDaily. Retrieved March 18, 2024 from www.sciencedaily.com/releases/2017/05/170524084349.htm
Ecole Polytechnique Fédérale de Lausanne. "Water is surprisingly ordered on the nanoscale." ScienceDaily. www.sciencedaily.com/releases/2017/05/170524084349.htm (accessed March 18, 2024).

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