Search

Using a refrigerated microscope and antifreeze to directly observe the ice-liquid interface - Phys.org

kembaliui.blogspot.com
It takes a cool microscope and antifreeze to really look at ice
While ice without surrounding liquid (A) features so-called "frost pillars" about 20 nanometers tall, in 1-octanol antifreeze (B) the ice is perfectly flat with occasional steps only one molecular layer high. In different liquids (C: 1-hexanol. D: 1-butanol) with similar properties, the ice surface looks different in each case, underscoring the importance of directly measuring the interface. Credit: Yanagisawa Ryo

Ice in nature is surrounded by liquid most of the time, and therefore it is key to understand how ice and liquid interact. A Kobe University and Institute for Molecular Science study has now for the first time directly observed the precise shape of ice at the interface between ice and liquid—by using antifreeze and a refrigerated microscope.

When we slide on ice, when snowflakes form, when we lick , the surface of the ice is always covered with liquid water, and understanding the interaction between the liquid water and the ice is vital to understanding the whole phenomenon. However, because ice and water quickly transform into each other, it has been impossible to directly observe the interface between the two.

To get closer to understanding how ice interacts with its surrounding liquid, researchers led by Kobe University's Onishi Hiroshi decided to try the next best thing.

He says, "We came up with the idea of measuring ice immersed in colder than 0°C. This way, the ice doesn't melt and the interface doesn't move, and it should be possible to make precise observations." Even so, the researchers struggled to get good measurements of the ice.

"Through various trial and error processes, we found that we had to cool the entire microscope system in a cooling box, and it took some ingenuity to ensure that the , a precision measuring instrument, could operate stably at ," explains the Kobe University researcher.

It takes a cool microscope and antifreeze to really look at ice
"Through various trial and error processes, we found that we had to cool the entire microscope system in a cooling box, and it took some ingenuity to ensure that the atomic force microscope, a precision measuring instrument, could operate stably at sub-zero temperatures," explains OnishI Hiroshi. Credit: Onishi Hiroshi

In The Journal of Chemical Physics, the group have published their results. They found that, while ice without surrounding liquid features so-called "frost pillars" about 20 nanometers tall, in antifreeze the ice is perfectly flat with occasional steps only one molecular layer high.

"We think that the flat surface is formed through … partial dissolution and recrystallization of the ice surface in the 1-octanol liquid (the antifreeze)," the researchers write in the paper.

Onishi and his team also tried different liquids, all alcohols like 1-octanol. And even though all liquids they tried have similar properties, they observed that the ice surface looks different in each case, underscoring the importance of directly measuring the interface. In addition, they investigated the "hardness" of the ice surface under 1-octanol and found that the ice is much harder than previously estimated using less direct methods.

The researchers hope that their results will invite further study of the ice-liquid interface, but they have also set clear goals for their own future work saying, "We expect to increase the resolution of the microscope to single and use measurement methods other than . In this way, we hope to expand the range of possible applications of molecular-level measurements of the ice-antifreeze ."

More information: The interface between ice and alcohols analyzed by atomic force microscopy, The Journal of Chemical Physics (2024). DOI: 10.1063/5.0211501

Provided by Kobe University

Citation: Using a refrigerated microscope and antifreeze to directly observe the ice-liquid interface (2024, July 9) retrieved 10 July 2024 from https://ift.tt/DTdrbnM

This document is subject to copyright. Apart from any fair dealing for the purpose of private study or research, no part may be reproduced without the written permission. The content is provided for information purposes only.

Adblock test (Why?)



"interface" - Google News
July 09, 2024 at 08:00PM
https://ift.tt/JIGR1NL

Using a refrigerated microscope and antifreeze to directly observe the ice-liquid interface - Phys.org
"interface" - Google News
https://ift.tt/DsWUfAS
https://ift.tt/ORB8VUv

Bagikan Berita Ini

0 Response to "Using a refrigerated microscope and antifreeze to directly observe the ice-liquid interface - Phys.org"

Post a Comment

Powered by Blogger.