Novel Electrodes Enhance Battery Capacity
New self-supporting composite metal material doubles the volumetric energy and achieves fast charging rates in batteries.
New self-supporting composite metal material doubles the volumetric energy and achieves fast charging rates in batteries.
Metal-organic frameworks designed with a topology-guided approach show higher efficiency than commercial benchmarks.
Scientists discover an unexpected source of new materials, with potential for energy applications.
A flowing magnetically responsive liquid seamlessly regulates the shape and properties of solids, letting them perform an array of jobs.
A new route to make metal beneath a layer of graphite opens potentially new applications in solar cells and quantum computing.
Read more about Getting Metal Under Graphite’s Skin
Discovery of new boron-containing phase opens the door for resilient flexible electronics.
Researchers capture detailed images of polymers, using electron-based imaging and computer simulations.
Materials prevent battery failure by inhibiting tree-like growths.
New method could enable studying the fastest interactions of ultrabright X-rays with matter, a vital way of learning about chemical reactions.
The behavior of active magnetic liquids suggests new pathways to transport particles across surfaces and build materials that self-heal.
Read more about Tiny Vortices Could One Day Haul Microscopic Cargo
Production of actinium-227 ramps up for use in a drug to fight prostate cancer that has spread to bone.
New method provides ultrafast switching of electronic structure and illuminates fundamentals of charge ordering, potentially offering a simple path for next-generation data storage.
Read more about Bursts of Light Shape Walls Between Waves of Charge