Researchers reconstructed the first complete genomes for Archaea, a domain of single-celled microorganisms, using cultivation-independent methods,...
Researchers found a potential remediation strategy for environmental contamination — reduce the transport of highly soluble pentavalent Np [Np(V)]...
By bridging the gap between small and large spatial scales, the simulation method could pave the way for more accurate assessments of the risk of...
By revealing a novel molecular pathway involved in microbial lipid accumulation in the bacterium Rhodobacter sphaeroides, this study could lead to...
A recent proteomics study sheds light on metal reduction pathways in key microbial species, paving the way for future widespread use for...
EMSL’s new 21 Tesla mass spectrometer is at its full magnetic field strength. When fully operational the system will allow new discoveries in...

Welcome to EMSL

Science Themes

Molecular-scale understanding of key chemical and physical properties of aerosols to accurately predict regional air quality and climate.
Optimizing and understanding the responses of organisms and biological communities to their environment.
Understanding the physical and chemical properties of interfaces to design new materials for energy applications.
Understanding molecular processes in terrestrial and subsurface environments.

Featured Stories

EMSL’s Special Science Call for Proposals ran from mid-April through September and generated 23 accepted studies. The call challenged prospective users to submit high-impact research projects that took advantage of EMSL’s technical resources including RadEMSL, the Quiet Wing microscopy and NanoSIMS capabilities, and HRMAC. The research associated with the call is progressing, and the projects will soon start delivering important scientific findings.
Virtually tour RadEMSL, (EMSL's Radiochemistry Annex), a facility designed for the understanding of the chemical fate and transport of radionuclides in terrestrial and subsurface ecosystems.
Brown carbon is an important contributor to air pollution and climate change. A recently published comprehensive review article focusing on atmospheric chemistry of this aerosol paves the way for more accurate climate models as well as strategies to curb negative effects.
EMSL is accepting applications through May 19 for its Terrestrial and Subsurface Ecosystems Postdoctoral Appointment. The fellowship is open to high-performing recently graduated Ph.D. scientists interested in conducting integrated experimental and modeling research in belowground terrestrial carbon cycle processes.

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