我国科研人员实现温和条件下合成亚纳米级高熵合金

Core Insights - The research team led by Professor Xiong Yujie from Anhui Normal University, in collaboration with the University of Science and Technology of China, has successfully created sub-nanometer high-entropy alloys using laser irradiation, which can incorporate up to ten different metal elements [1][2] - This innovative method overcomes traditional high-temperature synthesis limitations, allowing for the production of high-entropy alloys at milder conditions and achieving smaller particle sizes [1] Group 1: Research Methodology - The team utilized laser irradiation technology to achieve uniform mixing of multiple metals under mild conditions, resulting in the production of sub-nanometer high-entropy alloy particles [1] - The nanosecond pulsed laser rapidly increases the surface temperature of the particles to over 2000 degrees Celsius and then cools them at a rate exceeding one billion degrees per second, enabling precise control over particle size [1] Group 2: Applications and Performance - High-entropy alloys exhibit significant potential in the renewable energy sector, particularly as ideal catalyst materials due to their unique structure and properties [2] - The sub-nanometer high-entropy alloy composed of gold, platinum, ruthenium, rhodium, and iridium demonstrates exceptional catalytic activity and stability in hydrogen production through water electrolysis, outperforming current commercial platinum-carbon and ruthenium dioxide catalysts [2] - The new laser synthesis method greatly expands the material system and applicability of high-entropy alloys, potentially advancing their practical applications in energy and catalysis [2]