Fracture Technology Innovation Allows Faster Materials Testing Tim Briggs has built a career at Sandia…
Browsing: Materials Science
Materials science is the interdisciplinary study of the properties, structure, and performance of materials—from metals, ceramics, and polymers to nanomaterials and biomaterials. It combines principles of physics, chemistry, and engineering to understand how atomic and molecular structures determine a material’s behavior and functionality. Researchers in this field design and synthesize new materials for advanced technologies, including semiconductors, batteries, renewable energy systems, quantum devices, and medical implants. By exploring phenomena such as superconductivity, self-healing materials, and metamaterials, materials science drives innovation across industries and shapes the future of sustainable energy, electronics, and manufacturing.
Technique creates highly customized structures that could be used in regenerative medicine. A team at…
A new theory linking multiorbital pairing in superconductors to helium-3 superfluidity suggests revising the superconductivity…
Unconventional form of ferroelectricity could impact next-generation computing. MIT researchers and colleagues recently discovered an…
By combining ferromagnets and two rotated layers of graphene, researchers open up a new platform…
Chameleon-Like Material Spiked With Boron Comes Closer To Mimicking Brain Cells In a new study,…
By applying pressure and heat, researchers stabilized a high-efficiency perovskite solar material, paving the way…
UCLA researchers have discovered a new way to boost perovskite solar cell efficiency by using…
Researchers have identified a new form of magnetism in so-called magnetic graphene, which could point…
Light-Controlled Crystals Enable Nanoscale Imaging and New Quantum Tech Possibilities A team of researchers led…
Scientists reveal a new nanostructure that could revolutionize technology in batteries and beyond. New research…
Physicists from Göttingen University develop method in which beams are simultaneously generated and guided by…
Army-funded researchers discovered how to make materials capable of self-propulsion, allowing materials to move without…
Structure may reveal conditions needed for high-temperature superconductivity. When two sheets of graphene are stacked…
A collaborative team of materials scientists and theoretical chemists provide hybrid perovskite nanoparticles that are…
A new deformation method forms ultra-strong amorphous regions in high-entropy alloys, offering exciting applications in…
Fast, One-Step Assembly at Room Temperature Yields High Efficiency at Low Cost Seawater makes up…
Real-time 3D imaging shows voids at solid-state battery interfaces cause failure, offering clues for improving…