What CAN It Be?
Elucidating Cerium Solution Chemistry
Elucidating Cerium Solution Chemistry
Study changes perception on how acids behave in water.
Researchers computationally design a cheap, efficient catalyst that captures carbon dioxide and creates a chemical building block.
First-of-its-kind measurements provide insights on reactions that could one day turn sunlight and water into fuels.
Direct measurement of an elusive but critical combustion molecule leads to more accurate models of ignition chemistry.
Surface plasmons move at nearly the speed of light and travel farther than expected, possibly leading to faster electronic circuits.
Spectroscopy combined with theory and computation determines the interaction between carbon dioxide and water.
Commercialized nanopost array platform reveals metabolic changes in individual cells due to environmental stress.
Using computational methods, scientists tailor and adapt proteins to mine uranium from seawater.
Innovative materials adsorb carbon dioxide via an unprecedented cooperative insertion mechanism.
Researchers determine the reaction pathway to how soot and other toxic components form in combustion systems.
X-ray pulses from the Linac Coherent Light Source probe the molecular dynamics of photoexcitation.