Nano-Sculptures for Longer-Lasting Battery Electrodes
Liquid metal transforms solid alloy into pore-filled structure that could be used in future batteries.
Liquid metal transforms solid alloy into pore-filled structure that could be used in future batteries.
New tabletop laser achieves sought-after energies needed for advanced characterization with unprecedented precision and range.
Scientists review how we are matching – or exceeding – nature’s ability to make strong, tough lightweight structural materials.
Theoretical modeling of energy loss in solar cells may lead to more efficient materials to convert sunlight to electricity.
Predictable assembly of protein building blocks result in a new class of porous materials, with potential uses ranging from efficient fuel storage to practical carbon capture and conversion.
New electron-beam writing technique controls electronic properties for future on-demand re-configurable electronics.
Dressing electrons with a rotating field of laser light creates distinct, controllable states, opening the door for innovative electronics.
Affordable, Earth-abundant catalyst achieves efficient solar-driven hydrogen fuel production.
Three-dimensional structure of nanocrystals in solution determined with atomic resolution using a new technique.
A low-cost, stable oxide film is highly conductive and transparent, rivaling its predecessors.
Materials with extraordinary performance in solar cells are discovered to be efficient, tunable lasers at room temperature.
New method to fabricate graphene nanoribbon arrays on semiconductor wafers turns semimetal into semiconductor.