13 articles tagged with "materials science"
Researchers have identified atomic distortions in nickel-based materials that may enhance high-temperature superconductivity, suggesting implications for energy and technology.
A newly developed conductive hydrogel may significantly improve the interface between electronic devices and biological systems, addressing key challenges in emerging medical technologies.
Researchers at Xi'an Jiaotong University have developed an AI framework to systematically identify new solid carbon forms, which may exceed diamond in hardness, impacting materials science.
Recent innovations in polymer chemistry introduce movable molecular rings, addressing the critical balance between durability and environmental impact in material design.
Recent findings indicate that boron arsenide semiconductors can generate unprecedented quantum vibrations, potentially impacting quantum computing technologies.
Recent findings indicate that superconductivity can emerge in spinel crystal structures under high-pressure conditions, potentially impacting future electronic applications.
Researchers have uncovered a layered material that exhibits both order and disorder, challenging existing paradigms in materials science and atomic structure.
Caltech researchers have engineered nanoscale 3D metallic parts that exhibit unexpected strength, maintaining durability even with inherent defects. This advancement is relevant for various metals and alloys.
A new framework utilizing ZnO and phase separation technique offers improved stability and conductivity for lithium metal batteries, targeting energy storage applications.
Recent research has unveiled a room-temperature two-dimensional multiferroic metal, a significant development for electronics and spintronics.
Recent findings on atomic movement in crystalline structures may significantly enhance materials modeling, with implications for the development of advanced materials.
Utrecht University researchers have mapped the 3D structure of photonic supraparticles, revealing that their external disorder masks nearly perfect crystalline interiors.
Recent research published in Nature examines the properties of 227 rare-earth iridium pyrochlores, focusing on frustrated magnetism and its implications for material science and energy storage.