Scientists across North Carolina will now be able to probe the mysteries of very tiny particles, polymers, and surfaces for applications ranging from biomedicine to polymer science.
Thanks to an $850,000 grant from the National Science Foundation (NSF), a consortium of universities – Duke, North Carolina State and University of North Carolina-Chapel Hill – has created the Triangle Small Angle X-Ray Scattering (SAXS) facility at Duke.
“Before the establishment of the Triangle SAXS facility, researchers had to travel to sites across the country to collect data on their samples,” said Stefan Zauscher, Duke professor of Mechanical Engineering and Materials Science and principal investigator. “Easy access to SAXS instruments will further promote research in soft matter science in the Research Triangle area and stimulate cross-disciplinary research.”
“The establishment of the Triangle SAXS facility reflects the combined efforts of three universities whose inter-institutional cooperation was essential for sharing a significant amount of the cost,” said Robert Rose, associate professor of Biochemistry at NC State and co-principal investigator.
The facility is available to any scientist in the area. In all, 18 consortium researchers contributed research summaries in support of the NSF grant: eight from Duke, seven from NCS State, and six from UNC.
UNC’s Sergei Sheiko, co-principal investigator and professor of Chemistry, added, “This cooperation also represents a successful model for bringing expensive, state-of-the-art instrumentation to the Research Triangle, where the instruments will serve the greater Research Triangle community for research and education.”
The facility is housed in Duke’s Shared Materials Instrumentation Facility (SMIF), a state-of-the-art home to clean rooms, electron microscopy, atomic force microcopy and other advanced capabilities. SMIF director Mark Walters is also a co-principal investigator of the NSF grant.
The new facility will include two state-of-the art SAXS instruments, capable of analyzing a wide range of particle sizes and sample configurations. One instrument, the SAXSess MC2 built by Anton Paar, is optimal for solution samples including biological complexes. The other instrument, the GANESHA 300XL from SAXSlab, is a highly flexible instrument capable of collecting data from a wide range of particle sizes and sample configurations, including from surfaces and non-homogeneous samples.
“The range of samples that can be analyzed by these two instruments will make the Triangle SAXS facility one of the finest in the country, outside of similar facilities at the national laboratories,” Zauscher said.
Seventy percent of the facility was funded by the NSF, with the remaining portion split among the three participating institutions. At Duke, the Research Triangle Materials Research Science and Education Center (RT-MRSEC) also contributed to the purchase.