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Blog – Page 342

Scientists at the University of California, Irvine have uncovered the atomic-scale mechanics that enhance superconductivity in an iron-based material, a finding published recently in Nature.

Using advanced spectroscopy instruments housed in the UC Irvine Materials Research Institute, the researchers were able to image atom vibrations and thereby observe new phonons—quasiparticles that carry thermal energy—at the interface of an iron selenide (FeSe) ultrathin film layered on a (STO) substrate.

“Primarily emerging from the out-of-plane vibrations of oxygen atoms at the interface and in apical oxygens in STO, these phonons couple with electrons due to the spatial overlap of electron and phonon wave functions at the interface,” said lead author Xiaoqing Pan, UC Irvine Distinguished Professor of materials science and engineering, Henry Samueli Endowed Chair in Engineering and IMRI director.

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Did you know the “probiotic” sodas Olipop and Poppi are both facing lawsuits for exaggerating their gut health claims? Jessica did a deep dive to discover which probiotics for longevity are *actually* scientifically backed:

Ignore the gut health hype & choose the best probiotics for longevity based on science– Microbial strains, capsule types & ingredients matter!

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Three-dimensional (3D) printing isn’t just a way to produce material products quickly. It also offers researchers a way to develop replicas of human tissue that could be used to improve human health, such as building organs for transplantation, studying disease progression and screening new drugs. While researchers have made progress over the years, the field has been hampered by limited existing technologies unable to print tissues with high cell density at scale.

A team of researchers from Penn State have developed a novel bioprinting technique that uses spheroids, which are clusters of cells, to create complex tissue. This new technique improves the precision and scalability of tissue fabrication, producing tissue 10-times faster than existing methods. It further opens the door to developing functional tissues and organs and progress in the field of regenerative medicine, the researchers said.

They published their findings in Nature Communications.

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A method that can grow a useful insulating material into exceptionally high-quality films that are just one atom thick and are suitable for industrial-scale production has been developed by an international team led by Xixiang Zhang from KAUST.

The work is published in the journal Nature Communications.

The material, called (hBN), is used in and can also enhance the performance of other two-dimensional (2D) materials such as graphene and transition metal dichalcogenides (TMDs).

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On December 5, 2024, the European Space Agency (ESA) achieved a milestone in space exploration with the successful launch of its Proba-3 mission, which aims to create artificial solar eclipses. This revolutionary mission could provide groundbreaking insights into the Sun’s mysterious atmosphere, the corona. By creating artificial eclipses, the two Proba-3 spacecraft will work together to block the Sun’s light, allowing scientists to observe its outer layers like never before. These solar eclipses will provide a close-up view of the corona for the first time, unlocking secrets that were previously beyond our reach.

The Proba-3 mission is built around a remarkable concept: two satellites, the Occulter and the Coronagraph, will fly in precise formation, separated by a distance of 500 feet. This configuration will allow the Occulter to block the Sun’s light and cast a shadow onto the Coronagraph, creating an artificial eclipse in orbit. By mimicking the conditions of a natural solar eclipse, scientists will be able to observe the Sun’s corona for extended periods, up to six hours at a time, far surpassing the fleeting moments provided by natural eclipses on Earth.

This level of precision, described by ESA as “down to the thickness of a fingernail,” is unprecedented in space exploration. The spacecraft rely on a suite of advanced technologies, including GPS, star trackers, lasers, and radio links, to maintain their exact positioning autonomously. This capability allows the spacecraft to operate as though they were a single, integrated observatory, delivering the optical performance required for such ambitious science objectives.

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In a significant advancement in the field of anti-counterfeiting technology, Professor Jiseok Lee and his research team in the School of Energy and Chemical Engineering at UNIST have developed a new hidden anti-counterfeiting technology, harnessing the unique properties of silver nanoparticles (AgNPs). The results are published in Advanced Materials.

“The technology we have developed holds significant promise in preventing the counterfeiting of valuable artworks and defense materials, particularly in scenarios where authenticity must be verified against potential piracy,” Professor Lee explained.

The team leveraged the inherent disadvantage of AgNPs, which tend to discolor upon exposure to UV light, to create a controlled color development process. By trapping silver nanoparticles within a , researchers can manipulate and, consequently, the color emitted under UV light. Larger polymer nets yield silver nanoparticles that appear yellow, while smaller nets produce a red hue, allowing for precise control of the resultant colors based on ingredient combinations.

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The National Weather Service allowed the Tsunami Warning to expire on Thursday morning after a major magnitude 7.0 earthquake struck off the coast of Ferndale, California. The quake was the strongest for the area since 2005.

SAN FRANCISCO – A magnitude 7.0 earthquake off the coast of Northern California prompted a rare tsunami warning for coastal areas near the California–Oregon state line, including San Francisco Bay.

A powerful 7.0 earthquake was recorded around 10:44 a.m. PT about 60 miles offshore of Ferndale, California, according to the U.S. Geological Survey.

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