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Exploiting the self-organizing nature of atoms to block heat transfer and improve thermal-to-electrical energy conversion.
Nano-porous metal oxide coatings on carbon fiber dramatically enhance the electrical storage capacity for supercapacitors.
New computational technique creates high resolution maps of subsurface CO2 after geologic sequestration.
New porous, electrically conductive materials have potential uses in fuel cells, batteries, and solar photovoltaics.
This observation paves the way for a deeper understanding of high-temperature superconductivity and future applications for quantum computing.
A simple, robust catalyst is capable of both water oxidation and carbon dioxide splitting, two difficult yet key reactions for solar energy conversion.
Discovering how polymer organization on the molecular level affects electric charge movement in organic solar cells.
Accurate prediction of El Niño-Southern Oscillation is crucial for simulating extreme maximum temperature.
Supercomputers + Software + electromagnetic images yield new way to discriminate underground deposits from surrounding geology.
New microscopy with nanometer-sized resolution may bring revolutionary new understanding to energy storage technologies.
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.
