Rotation of electron spins in superconductors of atomic-scale thickness may be used to make qubits…
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.
A new approach to identifying useful formulations could help solve the degradation issue for these…
Researchers at Nara Institute of Science and Technology, Japan, in partnership with research teams at…
Colossal voltage results from interplay of material’s topology and strong electron correlations in a uranium-cobalt-ruthenium-aluminum…
Faster Simulations with Martini Forcefield Simulating the interactions between atoms and molecules is important for…
2D materials have triggered a boom in materials research. Now it turns out that exciting…
The startup Transaera is using a class of materials, advanced by MIT Professor Mircea Dinca…
Researchers from Chalmers University of Technology have produced a structural battery that performs ten times…
Ultrafast lasers expose how quantum materials like CeTe₃ switch states at the atomic level. Lex…
Some 5G technologies are still considered the wild west in material, design development. 5G, or…
A new robotic and AI-driven workflow accelerates discovery of stable solar materials, optimizing perovskites for…
Feeding silkworms cellulose nanofibers produced silk twice as strong, offering a sustainable, chemical-free method to…
Smart glass can change its color quickly through electricity. A new material developed by LMU-chemists…
Columbia Engineers use DNA nanotechnology to create highly resilient synthetic nanoparticle-based materials that can be…
Study Shows How Century-Old Design Principle Can Be a Pathway to Overcoming Failure Catastrophic collapse…
Researchers improved micro-supercapacitor electrodes by doping cobalt oxide with tin and using graphene for support,…
Chromium-doped nanowires show promise as antiferromagnetic semiconductors, offering high-speed, high-density data storage with better resistance…
Pioneering experiment could help design energy-efficient materials. In a groundbreaking study published in Physical Review…