A research team led by Dr. Hoon Ryu from the Korea Institute of Science and Technology (KIST, President Sang-Rok Oh) Brain Disease Research Group, in collaboration with Director Justin C. Lee of the Institute for Basic Science (IBS, President Do-Young Noh) and Professor Junghee Lee from Boston University Chobanian & Avedisian School of Medicine, has uncovered a new mechanism involving astrocytes for treating Alzheimer’s disease (AD) and proposed a novel therapeutic target.
New brain cell cleaner
Astrocytes raise the possibility of Alzheimer’s disease treatment
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First-ever images reveal the cosmic web’s hidden structure
These findings are fundamental.
Astronomers used the MUSE1 instrument on ESO’s Very Large Telescope in Chile to capture the first-ever images of the cosmic web in the early universe. The project took eight months of observations, followed by a year of data processing. Their analysis revealed glowing hydrogen filaments, showing structures as they appeared one to two billion years after the Big Bang.
Axial Seamount: Underwater Volcano Poised to Erupt
A rare glimpse into Earth’s hidden forces—scientists brace for a deep-sea eruption off Oregon’s coast.
Axial Seamount, an underwater volcano 300 miles off Oregon’s coast, is showing strong signs of an impending eruption—the first since 2015. Though invisible from land, its activity is closely monitored by the Regional Cabled Array, providing real-time data on earthquakes, lava flows, and deep-sea ecosystems. Scientists are eager to study this eruption to better understand Earth's geological processes and improve eruption predictions. While harmless to people, Axial’s eruptions reshape the seafloor, impact hydrothermal vents, and reveal how life thrives in extreme environments—offering a rare window into the power beneath our oceans.
A magma cap beneath Yellowstone National Park
An eruption is not imminent.
Scientists have identified a magma cap beneath Yellowstone National Park, located about 2.4 miles (3.8 km) below the surface. This cap acts as a pressure-regulating layer, preventing magma from rising too quickly and reducing the likelihood of an eruption. The cap consists of molten silicate materials, supercritical water, and porous rock, which trap heat and gas within the volcanic system. Researchers used seismic imaging and advanced modeling to study its structure.
Novel material can convert CO₂ into fuel
Hybrid Tincone Material Enhances Stability and Electrochemical Performance
Researchers have developed a stable metalcone thin film for converting atmospheric CO₂ into methanol, a liquid fuel. By mildly annealing tincone at 250°C, they improved its stability in aqueous solutions while enhancing its electrochemical properties. This breakthrough overcomes a major challenge in using Metalcones for carbon reduction applications. The next step involves integrating this engineered material into real-world systems to assess its efficiency in CO₂ conversion. This innovation paves the way for more sustainable fuel production and advances in photoelectrochemical applications.
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