Two laboratory facilities are currently being constructed:
The Wet Geochemistry Lab is equipped to enable users to conduct sequential extractions of sulfur, carbon, iron, and other elemental phases from powdered rock samples, sediments, and natural waters. We have three fume hoods, ample space for sample processing and descriptions, and an on-site walk-in refrigerator for storage of sediment cores (i.e., stinky mud) and water.
The Isotope Ratio Mass Spectrometer Lab is a facility shared with Professor Emmy Smith where we analyze carbon, sulfur, oxygen, and nitrogen isotope compositions of materials extracted in the wet geochemistry lab. It has two instruments: (1) a DeltaV Plus stable isotope ratio mass spectrometer and (2) a Thermo MAT 253 and three peripherals: (1) an Elemental Analyzer, (2) a High Temperature Conversion Elemental Analyzer, and (3) a GasBench II.
The Wet Geochemistry Lab is equipped to enable users to conduct sequential extractions of sulfur, carbon, iron, and other elemental phases from powdered rock samples, sediments, and natural waters. We have three fume hoods, ample space for sample processing and descriptions, and an on-site walk-in refrigerator for storage of sediment cores (i.e., stinky mud) and water.
The Isotope Ratio Mass Spectrometer Lab is a facility shared with Professor Emmy Smith where we analyze carbon, sulfur, oxygen, and nitrogen isotope compositions of materials extracted in the wet geochemistry lab. It has two instruments: (1) a DeltaV Plus stable isotope ratio mass spectrometer and (2) a Thermo MAT 253 and three peripherals: (1) an Elemental Analyzer, (2) a High Temperature Conversion Elemental Analyzer, and (3) a GasBench II.