Light Speed Ahead!
Surface plasmons move at nearly the speed of light and travel farther than expected, possibly leading to faster electronic circuits.
Surface plasmons move at nearly the speed of light and travel farther than expected, possibly leading to faster electronic circuits.
Using computational methods, scientists tailor and adapt proteins to mine uranium from seawater.
Commercialized nanopost array platform reveals metabolic changes in individual cells due to environmental stress.
Realistic computational view of how atom stretches informs microscopic description of nuclear energy production.
Advances in simulating water molecules in droplets reveal surfaces that may be resistant to ice formation.
New models reveal the impact of competing processes on helium bubble formation in plasma-exposed tungsten.
Researchers determine the reaction pathway to how soot and other toxic components form in combustion systems.
New nanoscale thermal imaging technique shows heat building up inside microprocessors, providing new information to help solve heat-related performance issues.
Pairs of precisely tuned X-ray pulses uncover ultrafast processes and previously unmapped structures.
Careful tuning of a surface at the nanoscale could lead to robust materials for solar panels, other uses.
New approach to design and assemble tiny composite materials could advance energy storage.
Atomic-scale defects in graphene are shown to selectively allow protons to pass through a barrier that is just one carbon atom thick.