Unique magnetic coupling found in vertically aligned nanocomposite films shrink devices and let them withstand higher temperatures.
Using DNA linkers to form cages for nanoparticles redefines the rules for assembling nanoparticles
On the path to ultra-stable, low-cost, earth-abundant zinc-manganese oxide rechargeable batteries for the electric grid.
A material with unprecedented control of magnetic states may have implications for new technologies.
Small platinum particles prove to be more catalytically active than single platinum atoms, a vital insight for designing more efficient catalysts.
Combining two types of catalysts speeds conversion of carbon dioxide into an industrial feedstock.
A protean protein transports actinides into cells and could change environmental cleanup.
The first well-characterized materials containing berkelium differ from expectations
Scientists experimentally validated the predicted damage mechanism for materials in nuclear energy environments.
Researchers reveal the factors that affect the stability of semiconductors in solar fuel devices to aid the discovery of next-generation materials.
Simulations indicate that ultrafast laser pulses leave vortex-shaped patterns in their wake.
Scientists reveal conductive edges and thread-like flaws using a specialized imaging technique of interest for next-generation electronics.
