Welcome to EMSL
A team of PNNL scientists doing some of their research at EMSL developed a unified theory and unified multiscale model that simulates water flow at all scales. The new approach is important for understanding water cycling and its effect on agriculture, water conservation and climate changes.
EMSL scientists Patrick Reardon and Karl Mueller studied the protein structures that make up nanowires on some bacteria. These tiny electrical wires contribute to rock and dirt formation. Their findings have implications for producing energy, recycling Earth's carbon and miniaturizing computers.
Virtually tour EMSL's Radiochemistry Annex, a facility designed for the understanding of the chemical fate and transport of radionuclides in terrestrial and subsurface ecosystems.
EMSL received first-year funding of almost $1M from the DOE Office of Science for a pilot program to develop imaging approaches to understand how microbes sense and respond to their environment on the molecular to cellular scale. EMSL Scientist James Evans will lead the multi-institutional project team.
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