Photos by Gary Wayne Gilbert
The new Center for Isotope Geochemistry in the Department of Earth & Environmental Sciences provides researchers with state-of-the-art lab space and technology to analyze materials for new insights into earth processes and human activity across billions of years.
The $2.5-million lab came online earlier this year and so far has hosted more than two dozen professors, graduate students and undergraduate researchers, Earth & Environmental Sciences Associate Professor and chair Ethan Baxter said at a recent open house for the facility, located in Devlin Hall.
In addition to Earth & Environmental Sciences, Baxter expects students and faculty from other disciplines 鈥 such as physics, chemistry, biology, and even history and theology 鈥 to explore how the lab鈥檚 unique technology can support their work. The facility has also drawn earth science researchers from other universities.
鈥淭hat open user philosophy is a really important aspect of the lab that we want people to know about,鈥 Baxter said. 鈥淚t is a very, very diverse portfolio of science that we do here and we take great pride in that and the diverse group of researchers here.鈥
The 1,350-square-feet lab complex was planned and completed by a team that included faculty and staff experts, 亚色影库鈥檚 Division of Facilities鈥 Capital Projects Management office, architect Dimella-Shaffer, engineer Thompson Consultants, and the contractor StructureTone.
Clean labs and clean rooms are controlled environments with low levels of air-borne contaminants 鈥 measured by the number and size of particles per cubic foot of air 鈥 such as dust, microbes, aerosol particles and chemical vapors. Outdoor air contains approximately 35 million ppcf.
The new lab, constructed during the past two years in space already occupied by the earth sciences department, includes an analytical geochemistry laboratory rated 鈥渦ltra clean鈥 鈥 or 1,000 ppcf 鈥 and within that 11, 100-ppcf-rated fume hood workspaces for sample preparation.
In the adjacent space, the Thermal Ionization Mass Spectrometry (TIMS) Facility technology takes a purified sample, employs heat to ionize its atoms and then uses an electromagnet to separate the atoms by isotopic mass and charge. The unique isotope characterizations can be used to specify earth processes and date the origins of materials contained in the samples.
Baxter said TIMS can analyze samples smaller than a nanogram with a high degree of precision. Drawing on archives of rock and sediment samples, TIMS enables researchers to look back as many as 4 billion years for new insights into subjects ranging from plate tectonics to climate change, Baxter said.
鈥淭hat precise analysis translates into a precise geochronology of events and a range of other processes we study,鈥 said Baxter.