Electron Paramagnetic Resonance
The Environmental Molecular Sciences Laboratory (EMSL) offers electron paramagnetic resonance spectroscopy capabilities through the EMSL User Program.
Related Instrument Groups
Liquid State NMR for Metabolomics
The Environmental Molecular Sciences Laboratory (EMSL) offers liquid state nuclear magnetic resonance capabilities for metabolomics research through the EMSL User Program.
Related Instrument Groups
Liquid State NMR for Organic Matter/Complex Mixtures
The Environmental Molecular Sciences Laboratory's liquid state nuclear magnetic resonance capabilities for studying mixtures or pure compounds.
Related Instrument Groups
Liquid State NMR for Structural Biology
Liquid state nuclear magnetic resonance at the Environmental Molecular Sciences Laboratory can be used to investigate nucleic acids, peptides, and heterogeneous cell-wall biopolymers, such as lignin and oligosaccharides.
Related Instrument Groups
Solid State NMR
The Environmental Molecular Sciences Laboratory (EMSL) has five solid state nuclear magnetic spectrometers that utilize high-field superconducting magnets.
Related Instrument Groups
Controlled Combustion System
The Environmental Molecular Sciences Laboratory's controlled combustion system mimics real-life combustion conditions around aerosols produced and improves understanding of aerosol formation, properties, and the effects on ecosystem.
Related Instrument Groups
Size and Time-Resolved Aerosol Collector
The Environmental Molecular Sciences Laboratory’s multifunctional size and time-resolved aerosol collector (STAC) is used to investigate how aerosol physicochemical properties evolve.
Related Instrument Groups
Graph Identification of Proteins in Tomograms (GRIP-Tomo)
The Environmental Molecular Sciences Laboratory (EMSL) is developing a capability that will allow scientists to mine data for patterns using the algorithm of graph identification of proteins in tomograms (GRIP-Tomo), which will improve protein identification and faster structure determination.
Related Instrument Groups
TerraForms
TerraForms is a group of platforms of custom-designed synthetic environments, microfluidics technologies, and in-house instrumentation to simulate soil properties and visualize soil microbial and plant community dynamics.
Related Instrument Groups
TerraForms: Pore-Scale Micromodels
Pore-scale micromodels simulate soil porosity and aggregate size distribution on a microfluidic platform.
Related Instrument Groups
TerraForms: RhizoChip
RhizoChip provides a microscale soil environment that retains the physical structure of natural soils and can be used to map the molecular environment of roots.
Related Instrument Groups
TerraForms: SubTap Microbial and RhizoTap Rhizosphere Platforms
The SubTap and RhizoTap platforms are for rapid analysis of metabolites resulting from plant–microbe and microbe–microbe interactions.
Related Instrument Groups
TerraForms: 3D Bioprinted Synthetic Soil Aggregates
EMSL's three-dimensional bioprinted habitat mimics natural soil and provides a chemically defined, translucent alternative for studying microorganisms.
Related Instrument Groups
TerraForms: Pore2Chip
The Environmental Molecular Sciences Labatory's Pore2Chip creates field representative micromodels and RhizoChips.
Related Instrument Groups
Separation and Characterization of Colloidal Mineral-Associated Organic Matter
The Environmental Molecular Sciences Laboratory (EMSL) developed a workflow to rapidly separate and characterize MAOM colloids that are <0.45 µm in size and prevalent in soil-water systems, which is is available to the research community through EMSL’s open calls for proposals.
Related Instrument Groups