Posted on 04/10/2025 10:06:53 AM PDT by Red Badger
University of Massachusetts Amherst researchers have discovered a surprising “shape-changing” liquid that seems to bend the laws of thermodynamics.
The strange compound—made of oil, water, and magnetic nickel particles—was first assembled by a graduate student who was merely curious to see what might happen. To his surprise, when the liquid was shaken, the magnetic particles quickly reformed into a shape resembling a Greek urn.
Emulsion and Thermodynamics
“Imagine your favorite Italian salad dressing,” says Thomas Russell, Silvio O. Conte Distinguished Professor of Polymer Science and Engineering at UMass Amherst and one of the paper’s senior authors. “It’s made up of oil, water and spices, and before you pour it onto your salad, you shake it up so that all the ingredients mix.”
While water and oil normally separate, they can combine through a process called emulsion, where small bits of a third material enter the mix, reducing surface tension between the two normally incompatible substances. The emulsion process works as described by the laws of thermodynamics.
Playing Around in the Lab
A wide range of technologies and applications make use of emulsification. While experimenting with emulsions in the lab, UMass Amherst graduate student Anthony Raykh mixed magnetized nickel with oil and water just to see what might happen.
“Because you can engineer all sorts of interesting materials with useful properties when a fluid contains magnetic particles,” says Raykh. “And, in a complete surprise, the mixture formed this beautiful, pristine urn-shape.”
Despite repeated, vigorous shaking, the mixture consistently returned to a shape resembling an urn. Even altering the size of the magnetic particles did not change the effect.
“I thought ‘what is this thing?’ So, I walked up and down the halls of the Polymer Science and Engineering Department, knocking on my professors’ doors, asking them if they knew what was going on,” Raykh continued.
None of the UMass Amherst researchers could immediately explain the phenomenon. Two of Raykh’s professors, David Hoagland and Thomas Russell, took an interest and joined the investigation.
Investigating a Perplexing Liquid
As the small team began conducting experiments, they expanded their collaboration to include researchers from Tufts and Syracuse universities for help with simulations. The growing team of experts across the Northeast ultimately concluded that strong magnetism was behind the liquid’s unusual behavior.
“When you look very closely at the individual nanoparticles of magnetized nickel that form the boundary between the water and oil,” says Hoagland, “you can get extremely detailed information on how different forms assemble. In this case, the particles are magnetized strongly enough that their assembly interferes with the process of emulsification, which the laws of thermodynamics describe.”
The liquid’s magnetic action reverses the normal emulsion process. Instead of decreasing the tension between oil and water, as normally occurs when introducing a third particle, the magnets increase the surface tension. As a result, the boundary separating the oil and water forms a curve.
Additionally, modifying the ratio of oil to water in the vial changed the shape from an urn to something more like a ball.
“When you see something that shouldn’t be possible, you have to investigate,” says Russell.
The team has yet to identify a practical application for the unexpected discovery, but they anticipate its influence on soft-matter physics.
The paper “Shape-recovering Liquids” appeared on April 4, 2025 in Nature Physics.
Ryan Whalen covers science and technology for The Debrief. He holds an MA in History and a Master of Library and Information Science with a certificate in Data Science. He can be contacted at ryan@thedebrief.org, and follow him on Twitter @mdntwvlf.
I wonder how many things have been discovered because someone just ‘wanted to see what would happen’.
FAFO is not always a bad thing.
ltr
When I was about 14, I discovered if you pour enough gasoline down an ant hole, when you light it, the ground will shake and explode under your feet. After that, I learned the best way to light an ant hole on fire after pouring five gallons of gas down and around it, is to plug an Estes Rocket Motor Igniter in the hole, wire that baby up, run about 35’ of wire to a battery and then let ‘er rip, tater chip. It was glorious!!!
I also wonder how many terrible accidents have taken place because someone just ‘wanted to see what would happen’...
Pottery Barn very interested in Instant Urn.
I want one that makes a nice Martini glass.
I'd venture to say you've got yourself some serious ants if their nest can hold 5 gallons of gas.
I'll bet it was "glorious" indeed!
New!
one day ... one day ... the ants will take revenge ...
Lots of pharma drugs have been discovered that way.
Apparently Viagara was found that way doing research for something else. The side effect was it gave all the white mice boners.
You and I made exactly the same kind of charred footprints, I see.
I’m just surprised that someone in college is actually doing REAL research.
Usually preceeded by the comment “hold my beer and watch this”.
Boys, toys and dynamite. My father told me when he was a teenager in Minnesota in the 30’s, they would take a farm tractor and dig a hole. Put a couple bags of fertilizer in the hole, and saturate it with kerosene. Cover it with about a foot of dirt, but leave a hole around the center and pour in some gasoline. Then throw in a flare and run. Presto! a new farm pond was created.
LOL
Colorado red ants ain’t no joke, dude. You could saddle those damned things.
lol... I like the way you think!!
I always liked putting a shotgun shell in the nose of a rocket and lighting it off in the middle of the night... You hear and see it go up, but then after about a minute or so you hear that WOOOMMMM in the distance when it landed!!!
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