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Archive for the ‘materials’ category: Page 96

May 11, 2023

Team discovers long-range skin Josephson supercurrent across van der Waals ferromagnet

Posted by in category: materials

In a study published in Nature Communications, Prof. Xiang Bin’s group from University of Science and Technology of China of the Chinese Academy of Sciences, in collaboration with Assoc. Prof. Wang Zhi from Sun Yat-sen University, discovered the long-range skin Josephson supercurrent across a van der Waals ferromagnet.

They bridged two spin-singlet superconductors NbSe2 (S) by constructing the van der Waals metal Fe3GeTe2 (F), and observed long-range supercurrent in the lateral Josephson junction (S/F/S) for the first time, which exhibits astonishing skin characteristics.

Ferromagnetism and superconductivity are two antagonistic macroscopic orderings. When the singlet supercurrent enters the ferromagnet, rapid decoherence of the Cooper pairs will be triggered.

May 10, 2023

Recycling plants spew a staggering amount of microplastics

Posted by in categories: biotech/medical, materials

An unsettling report released barely a year ago painted a grim picture of the plastics industry—only about 5 percent of the 46 million annual tons of plastic waste in the US makes it to recycling facilities. The number is even more depressing after realizing that is roughly half of experts’ previous estimates. But if all that wasn’t enough, new information throws a heaping handful of salt on the wound: of the plastic that does make it to recycling, a lot of it is still released into the world as potentially toxic microplastics.

According to the pilot study recently published in the Journal of Hazardous Materials Advances focused on a single, modern facility, recycling plants’ wastewater contains a staggering number of microplastic particles. And as Wired explained on Friday, all those possibly toxic particulates have to go somewhere, i.e. potentially city water systems, or the larger environment.

The survey focusing on one new, unnamed facility examined its entire recycling process. This involves sorting, shredding, and melting plastics down into pellets. During those phases of recycling, however, the plastic waste is washed multiple times, which subsequently sheds particles smaller than 5 millimeters along the way. Despite factoring in the plant’s state-of-the-art filtration system designed to capture particulates as tiny as 50 microns, the facility still produced as many as 75 billion particles per cubic meter of wastewater.

May 9, 2023

The Future of Fashion: Self-Repairing Clothes Made of Fungus?

Posted by in categories: innovation, materials

Thanks to a recent breakthrough by researchers from Newcastle University and Northumbria University in the UK, that dream may not be so far-fetched.

May 9, 2023

Iridescent, plant-based coatings that cool buildings — and the Earth

Posted by in categories: materials, space

Chemists have made an iridescent, plant-based film that gets cooler in sunlight.

The material, which comes in a range of shining colours, could one day coat buildings and cars, lowering the need for air conditioning.

The film exhibits a smart property: called passive daytime radiative cooling, or PDRC, it doesn’t absorb much light, and it radiates heat out at a wavelength that escapes the atmosphere and zooms straight into space.

May 8, 2023

New self-repairing bio-shoe concept unveiled

Posted by in categories: biological, materials

Year 2013 😗😁


Shamees Aden, a British designer and scientist, has come up with a concept for a pair of self-repairing shoes of synthetic protocell materials.

Protocells are molecules that on their own are not alive, but when used with other types of protocells can mimic the properties of living organisms. They react to heat, light and pressure like live cells.

Continue reading “New self-repairing bio-shoe concept unveiled” »

May 7, 2023

Researchers observe extremely squeezed directional THz waves in thin semiconductor crystals

Posted by in categories: computing, materials

An international team of scientists has imaged and analyzed THz waves that propagate in the form of plasmon polaritons along thin anisotropic semiconductor platelets with wavelengths reduced by up to 65 times compared to THz waves in free space.

What’s even more intriguing is that the wavelengths vary with the direction of propagation. Such THz waves can be applied for probing fundamental material properties at the nanometer scale and pave the way to the development of ultra-compact on-chip THz devices. The work has been published in Nature Materials.

Polaritons are hybrid states of light and matter that arise from the coupling of light with matter excitations. Plasmon and phonon polaritons are among the most prominent examples, formed by the coupling of light to collective electron oscillations and crystal lattice vibrations, respectively.

May 4, 2023

Scientists find link between photosynthesis and ‘fifth state of matter’

Posted by in categories: materials, particle physics

Inside a lab, scientists marvel at a strange state that forms when they cool down atoms to nearly absolute zero. Outside their window, trees gather sunlight and turn them into new leaves. The two seem unrelated—but a new study from the University of Chicago suggests that these processes aren’t so different as they might appear on the surface.

The study, published in PRX Energy on April 28, found links at the between photosynthesis and exciton condensates—a strange state of physics that allows energy to flow frictionlessly through a material. The finding is scientifically intriguing and may suggest new ways to think about designing electronics, the authors said.

“As far as we know, these areas have never been connected before, so we found this very compelling and exciting,” said study co-author Prof. David Mazziotti.

May 2, 2023

New technology more efficiently removes heavy metals from water

Posted by in categories: materials, robotics/AI

As freshwater scarcity affects millions worldwide, scientists and engineers have looked for new ways of filtering unwanted metals and minerals out of water while retaining those elements for re-use elsewhere.

Capacitive deionization (CDI), a technology in which a membrane made from electrode materials removes ions from , has proved a promising technique for such next-generation water filters. Researchers from University of Chicago and Argonne National Laboratory envisioned the technique could be made even more efficient if they modified the molecular surface of the electrodes.

Continue reading “New technology more efficiently removes heavy metals from water” »

May 2, 2023

Superconductors to enable next-generation transit, energy transmission, and storage

Posted by in categories: energy, materials

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The concept proposed by the team not only promises to reduce the operating cost of each system but also devise a way to store and transport liquified hydrogen, which is widely considered to be one of the primary sources of clean energy in the future. “The liquified hydrogen would be used to cool the superconductor guideway as it is stored and transported, reducing the need for a separate specialized pipeline system capable of cooling the fuel to 20 degrees Kelvin, or minus 424 Fahrenheit,” said a media release.

May 1, 2023

From Theory to Reality: A Groundbreaking Manifestation of Interdependent Networks in a Physics Lab

Posted by in categories: materials, physics

New findings enable experimental studies to control and further develop the multiscale phenomena of complex interdependent materials.

Bar-Ilan University researchers Havlin and Frydman have demonstrated the “network of networks” theory using a controlled system of interdependent superconducting networks. The study confirms that coupled networks exhibit abrupt transitions under varying temperatures, validating Havlin’s 2010 theory. This groundbreaking research has significant implications across physics, materials science, and device applications, potentially leading to new developments in self-healing systems, sensitive sensors, and network metamaterials.

Metamaterials are engineered materials that have properties not usually found in nature.

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