At an Elemental Crossroad: Investigating the Chemistry of Protactinium
Studies of protactinium aim to understand its chemistry and its unique electronic properties in the actinide elements.
Studies of protactinium aim to understand its chemistry and its unique electronic properties in the actinide elements.
Researchers observe metal-trapping on mineral surfaces.
New insights from neutron diffraction reveal changes to atomic structure.
New catalyst material provides potential for cheaper renewable hydrogen production.
Results show absorption properties of brown carbon depend more on burn conditions than fuel type, providing important information to model climates.
Modeling experiments assess impacts of key melting behavior.
Model comparison evaluates black carbon levels and impacts.
Strains produce “drop-in” fuels and chemicals derived from fatty acids.
Model scenarios predict increased scarcity in the Middle East and India.
New models show reduction in bias associated with too many highly reflective clouds.
New insights could assist in cleanup of contaminated environments.
Genome variability helps explain why Emiliania huxleyi canflourish in diverse ocean habitats.