I’ll Have My Nano-Sized Donuts with Extra Swirls

Donut shaped skyrmions (left) show polarization swirls in one direction, while half-donut-shaped merons (right) are able to swirl in multiple directions.
Image Credit: Yu-Tsun Shao.

Swirling donuts. That’s what Yu-Tsun Shao thinks about when describing his atomic-scale materials research.

Shao, an assistant professor in the Mork Family Department of Chemical Engineering and Materials Science, aims to understand the atomic-scale behavior of donut-shaped particles that can enable low-power electronics. He has uncovered how strain and heat can shift the shape of the donut particle to give it powerful new energy-efficient and stabilizing properties. His latest work was recently published in Nature Communications.

Shao is working with skyrmions — nanometer-sized objects that resemble donut-like swirling vortexes. The skyrmions have electric polarization in the form of positive or negative charges (dipoles) that move in a continuous direction up and out from the center ‘donut hole” and down and in from the outer edge of the particle.

Not so sweet after all: are candy-striped spiders a threat to ecosystems across North America?

candy-striped spider Enoplognatha ovata
Photo Credit: Syrio (CC BY-SA 4.0)

For years, pollinator declines have been a pressing issue for ecosystem health and food security in the face of climate change and human impacts on the environment. Even in their sleep, pollinating insects cannot catch a break – for fear they’ll be taken down by a small, but mighty predator: the candy-striped spider. Research published in Ecology took a closer look into this spider’s behavior and found that the result of their stealth attacks could have substantial impacts on ecosystems.

Most likely accidentally introduced to both the East and West Coasts a little over a century ago, the candy-striped spider is a very common spider in North America. The spider's striking color varieties have attracted much research into their genetics, but before now very little was known about their behavior.

New blue light technique could enable advances in understanding nanoscale technologies

Photo Credit: Courtesy of Brown University

With a new microscopy technique that uses blue light to measure electrons in semiconductors and other nanoscale materials, a team of Brown University researchers is opening a new realm of possibilities in the study of these critical components, which can help power devices like mobile phones and laptops.

The findings are a first in nanoscale imaging and provide a workaround to a longstanding problem that has greatly limited the study of key phenomena in a wide variety of materials that could one day lead to more energy-efficient semiconductors and electronics. The work was published in Light: Science & Applications.

“There is a lot of interest these days in studying materials with nanoscale resolution using optics,” said Daniel Mittleman, a professor in Brown’s School of Engineering and author of the paper describing the work. “As the wavelength gets shorter, this becomes a lot harder to implement. As a result, nobody had ever done it with blue light until now.”

Cannabis exposures in suspected suicide attempts are on the rise

Photo Credit: Jose Luis Sanchez Pereyra

Suspected suicidal cannabis exposures have increased 17% annually, over a period of 12 years, according to a Washington State University-led analysis of U.S. poison center data.

The vast majority of the attempts, more than 92%, involved other substances in addition to cannabis, and the data cannot show a direct causal link between cannabis and suicide attempts. Still, the findings are cause for concern, the researchers said, especially since the increase was more pronounced among children and women during and after the pandemic. They reported their findings in the journal JAMA Network Open.

“This study adds to already ample evidence that cannabis use, particularly by younger people, has significant implications for mental health,” said study co-author Tracy Klein, a WSU associate professor of nursing. “We don’t have evidence that cannabis alone was the primary driver of a suicide attempt, but we do know that cannabis can worsen certain mental health conditions and increase impulsivity.”

Lithium can be obtained from hot deep water

View of the laboratory: An adsorbent based on a lithium-manganese oxide with a special crystal structure serves as a lithium-ion sieve.
Photo Credit: Dr. Monika Bäuerle, IAM-ESS / KIT

Researchers at KIT and EnBW show lithium-ion sieve for geothermal soles - lithium extraction can complement electricity generation and heat supply

Geothermal energy not only enables a sustainable supply of electricity and heat, but also a regional lithium extraction. Researchers at the Karlsruhe Institute of Technology (KIT) and EnBW have produced a lithium-ion sieve from a lithium-manganese oxide and used it to adsorb lithium from geothermal brines. The use of domestic lithium sources can help to meet the increasing demand for light metal, which is indispensable as energy storage material. The researchers reported in the journal Energy Advances, who now recognizes the work as one of the "Outstanding Paper 2022". 

A sustainable energy supply requires efficient energy storage. Lithium is indispensable - the light metal is in the batteries of many technical devices and vehicles, from smartphones to notebooks to electric cars. Demand has risen sharply worldwide in recent years. Europe is still dependent on imports. However, there are also European lithium deposits, namely thermal waters a few kilometers deep. They contain high concentrations of lithium ions. In this way, geothermal plants that extract hot water from the depths can not only be used for sustainable electricity and heat supply, but also for environmentally friendly regional lithium production.

A once-stable glacier in Greenland is now rapidly disappearing

 

The K.J.V. Steenstrup Glacier during the summer melt season in 2016.
Photo Credit: NASA/John Sonntag.

As climate change causes ocean temperatures to rise, one of Greenland’s previously most stable glaciers is now retreating at an unprecedented rate, according to a new study. 

Led by researchers at The Ohio State University, a team found that between 2018 and 2021, Steenstrup Glacier in Greenland has retreated about 5 miles, thinned about 20%, doubled in the amount of ice it discharges into the ocean, and quadrupled in velocity. According to the study, such a rapid change is so extraordinary among Greenland ice formations that it now places Steenstrup in the top 10% of glaciers that contribute to the entire region’s total ice discharge.

The study was published today in Nature Communications. 

The Steenstrup Glacier is part of The Greenland Ice Sheet, a body of ice that covers nearly 80% of the world’s largest island, which is also the single largest contributor to global sea rise from the cryosphere, the portion of Earth’s ecosystem that includes all of its frozen water. While the region plays a crucial part in balancing the global climate system, the area is steadily shrinking as it sheds hundreds of billions of tons of ice each year because of global warming.

The wound dressing that can reveal infection

The wound dressing is made of tight mesh nanocellulose, preventing bacteria and other microbes from getting in. At the same time, the material lets gases and liquid through.
Photo Credit: Olof Planthaber

A nanocellulose wound dressing that can reveal early signs of infection without interfering with the healing process has been developed by researchers at Linköping University. Their study, published in Materials Today Bio, is one further step on the road to a new type of wound care.

The skin is the largest organ of the human body. A wound disrupts the normal function of the skin and can take a long time to heal, be very painful for the patient and may, in a worst-case scenario, lead to death if not treated correctly. Also, hard-to-heal wounds pose a great burden on society, representing about half of all costs in out-patient care.

In traditional wound care, dressings are changed regularly, about every two days. To check whether the wound is infected, care staff have to lift the dressing and make an assessment based on appearance and tests. This is a painful procedure that disturbs wound healing as the scab breaks repeatedly. The risk of infection also increases every time the wound is exposed.

Concordia researchers fight shallow lake algae blooms with floating filtration technique

Photo Credit: Liz Harrell

Climate change and human activity have been putting pressure on water bodies worldwide, and Canada’s vast network of lakes is no exception. Over the past decades, increasing nutrient levels have led to a process called eutrophication, in the shallow lakes dotting Quebec’s Laurentian region north of Montreal. These changes have led to a surge in algae blooms, rendering the lakes unusable and possibly disrupting the natural ecosystem.

Restoring these lakes to a healthier condition is a complicated and expensive undertaking, but a new method being investigated by Concordia researchers in the Department of Building, Civil and Environmental Engineering may cut down on both costs and labor in an environmentally friendly way.

Writing in the journal Water, the researchers describe a system of floating geotextile filters that efficiently remove suspended solids, algae and the nutrients from a shallow lake.  While the project is still in development, the researchers say they believe it has the potential to scale up. This technology could then benefit the health of larger bodies of water such as ponds, rivers, coastal areas and bays.

Nebraska-led study first to define anxiety spiraling from national election

Illustration Credit: Clint Chapman / University of Nebraska–Lincoln / University Communication

Researchers are beginning to better understand the toll of polarized politics on mental and physical health, and a new study in Journal of Elections, Public Opinion and Parties suggests that Americans’ political anxiety crescendos before a major election.

Led by University of Nebraska–Lincoln political scientist Kevin Smith, with Aaron Weinschenk of the University of Wisconsin–Green Bay and Costas Panagopoulos of Northeastern University, the study is the first to examine anxiety tethered to a specific political event — the 2020 presidential election, touted as the most consequential in recent history by both sides.

Using a two-wave panel survey measuring political anxiety, given two weeks prior and two weeks following the 2020 election, the study found that overall Americans were more anxious before the election, as researchers had hypothesized. Further, following the election, it was those who specifically voted for Donald Trump, conservatives and African Americans who reported lower levels of anxiety.

“We found a lot of political anxiety right before the election, and that the election was an intervention to treat some of that anxiety — how much, we don’t know because of some of the craziness around the election,” Smith, chair and Olson Professor in political science, said. “But, pretty much across the board, political anxiety went down following the election, and it went down surprisingly in some groups.

How does a millipede get its legs?

These microscopic images of the outside and inside of a millipede show the unexpected transparent protrusions, containing bundles of legs, present before the millipede molts. After the molt, while the millipede recovers, the legs are fully formed and become functional.
Photo Credit: © 2023 Soma Chiyoda

Millipede legs grow in an unexpected way, according to new research. Previously, it was thought that when a millipede molts (sheds its exoskeleton), it grows new segments on the end of its body without legs. Then after the next molt, the previously new segments re-emerge with fully formed legs attached. However, a team at the University of Tokyo has found that new segments actually contain tiny bundles of legs, which appear as transparent protrusions before molting and then become fully formed afterwards. This discovery could help us understand how not only millipedes, but also other arthropods (invertebrates with jointed legs) grow.

If you’ve recently been for a picnic in the park, you’ll probably have had to contend with a few creepy-crawlies. One that you might come across trundling under a shady tree is the harmless millipede. Famous for its multitude of legs (though the first to have more than 1,000 was actually only discovered in 2021), it is thought to have been one of the first creatures to walk on land and breathe air about 420 million years ago. Their lifestyle of burrowing in the dirt and digesting decomposing plant matter means that they play a very important role in our ecosystems, but there is still a lot we don’t know about them, including exactly how they get all those famous legs.