Researchers made a sheet of boron only one atom thick with the potential to change solar panels, computers, and more.
Novel electrode materials have designed pathways for electrons and ions during the charge/discharge cycle.
Researchers create materials with controllable electrical and magnetic properties, even at room temperature.
First observation of “quantum” heat transport uncovers the ultimate limits for nanoscale devices.
Well-packed organic glass better resists changes when exposed to light.
Rough surfaces provide additional sites for energy-generating reactions in fuel cells.
Device design allows ten-fold increase in spin currents, laying the path to use in computing and high-efficiency electronics.
Nanoscale images by Molecular Foundry researchers yield surprise that could push solar cell efficiency to 31 percent.
Researchers invent a low-tech, solution-based route to high-performance carbon nanotube thin films.
Scientists determine the precise location and identity of all 23,000 atoms in a nanoparticle.
Atomically flat materials used to fabricate the world’s smallest transistor.
Controlling electrons in graphene opens a new path to potential electronic devices.
