“Skyrmions,” in which electron spins inside a magnet are arranged like vortices, are a key structure in next-generation spintronics technology. KAIST researchers have shown that skyrmions can form using only the fundamental physical interactions within magnets, without requiring special physical conditions. This finding expands the possibility of realizing skyrmions in a wide range of magnetic materials and suggests new potential for developing next-generation ultra-low-power information devices with data storage densities tens to hundreds of times higher than current technologies.

The Society of Nuclear Medicine and Molecular Imaging (SNMMI) is pleased to announce that Chun Li, PhD, professor of chemistry in the Department of Cancer Systems Imaging at MD Anderson Cancer Center in Houston, has been selected as the recipient of a $100,000 Drs. Jane & Abass Alavi Mars Shot Research Award from the 2026 Mars Shot Fund. The Alavi Mars Shot Award is focused on advancing imaging research in infection and inflammation, and Li's grant was awarded based on his proposal, "Imaging vascular inflammation and response to therapy in atherosclerotic coronary artery disease."

The Society of Nuclear Medicine and Molecular Imaging (SNMMI) is pleased to announce that Carolyn J. Anderson, PhD--Steve and Karen Ellebracht Professor of Medicinal Chemistry, professor of radiology, and associate director of the Ellis Fischel Cancer Center at the University of Missouri in Columbia--has been selected as the recipient of a $100,000 Drs. Jane & Abass Alavi Mars Shot Research Award from the 2026 Mars Shot Fund. The Alavi Mars Shot Award is focused on advancing imaging research in infection and inflammation, and Anderson s grant was awarded based on her proposal, "Fluorine-18 LLP2A for PET imaging of vaso-occlusive crisis in sickle cell disease."

A new study  by Prof. YANG Yuanhe from the Institute of Botany of the Chinese Academy of Sciences now reveals that nitrogen fixation by microbes associated with mosses is a previously underestimated yet critical factor in sustaining plant growth in permafrost ecosystems under warming conditions.

In a first of its kind breakthrough, University of Utah geophysicists used electromagnetic data from airborne surveys to characterize a newly discovered freshwater reservoir under the lake’s Farmington Bay.

A new study finds old-growth forests in Sweden store far more carbon than the industrial tree plantations that are rapidly replacing them, with soil accounting for most of the difference. Protecting undisturbed areas could do more to mitigate climate change than previously thought.

Techniques developed to study the distant past—from dating ancient artifacts to reconstructing climate records in ice cores—are now being repurposed to better understand the lives of modern sea turtles. Using radiocarbon methods from archaeology, researchers show that sea turtle shell plates are biological time capsules that record signs of major environmental disturbances in the ocean.

The Federal Institute for Materials Research and Testing (BAM), the Helmholtz Zentrum Berlin (HZB) and Humboldt-Universität zu Berlin (HU) today officially inaugurated the Berlin Battery Lab (BBL). At this new research platform, BAM, HZB and HU jointly develop and test resource-efficient battery technologies with a focus on sodium-based systems. Together, they develop new materials, investigate innovative cell chemistries, and produce battery prototypes. The research infrastructure of the Berlin Battery Lab is also open to external partners from science and industry and is designed to accelerate the transfer from research to application.