Argonne superconducting radiofrequency technology boosts a variety of applications.
Adding platinum atoms tunes the color of emitted light.
Novel high temperature superconductor magnet technology charts new territory.
Brookhaven’s large proton linear accelerator is able to produce medically useful radioisotopes not available elsewhere.
A novel metal-organic framework (MOF) efficiently separates higher octane components from the low value ones, offering great potential for significant cost reduction in gasoline production.
The optimization of commercial hardware and specialized software enables cost-effective supercomputing.
Gamma-ray detectors built with silicon photomultiplier arrays provide high-resolution 3D imaging for research.
Using newly synthesized polymers results in enhanced light harvesting capabilities and an unprecedented generation of photocurrent.
Discovering how polymer organization on the molecular level affects electric charge movement in organic solar cells.
New findings indicate that ionized plasmas like those in neon lights and plasma TVs can be used to sterilize water, making it antimicrobial for as long as a week after treatment.
Thomas Jefferson Laboratory lends expertise in cryogenics developments.
Precision analytical techniques developed for fundamental experiments in nuclear physics now enable routine measurements of ultra-low concentrations of Krypton radioisotopes in samples of water, ice, and gas.
