Researchers found that vortex structures in Cold Spray coatings form due to particle rebound under…
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.
Breakthrough Discoveries Could Pave Way for New Applications of Liquid Crystals Exciting new technologies could…
Cutting-edge microscope helps reveal ways to control the electronic properties of atomically thin materials. In…
Electron Microscopes Used to Precisely Dope Graphene Oak Ridge National Laboratory scientists demonstrated that an…
Surprise in solid-state physics: The Hall effect, which normally requires magnetic fields, can also be…
UC Riverside-led study observed unexpected insulating phases by placing electrons on stacked monolayers of 2D…
Rice engineers develop polymer cores that redirect light from any source to solar cells. Rice…
Periodic pattern consisting of magnons is formed at room temperature. A team of researchers has…
Pritzker School of Molecular Engineering research could help make hydrogen useful, sustainable fuel. Hydrogen is…
Researchers created a new sodium-ion battery electrolyte, NYZC, which significantly boosts battery lifespan and efficiency.…
Scientists Create Liquid Crystals That Look a Lot Like Their Solid Counterparts A team at…
Fracture Technology Innovation Allows Faster Materials Testing Tim Briggs has built a career at Sandia…
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…