
Nothing Boring about the Thinnest Boron Ever
Researchers made a sheet of boron only one atom thick with the potential to change solar panels, computers, and more.
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.
Researchers perform first spectroscopic measurements on antihydrogen in pursuit of one of our biggest scientific mysteries: why is there so little antimatter in the universe?
Scientists obtain new evidence for the existence of the extremely neutron-rich, very short-lived isotope of hydrogen 5H.
Molecular Foundry researchers help shed light on barrier to optimal performance.
Nanoscale images by Molecular Foundry researchers yield surprise that could push solar cell efficiency to 31 percent.
Neutron-scattering studies reveal surprising formation of ammonia after acetonitrile is turned into graphitic polymer, opening doors for catalyst-free industrial reactions at room temperature.