Discover cutting-edge isotope analysis with the new Thermo Scientific Neoma MC-ICP-MS at the ASU Core Research Facilities. This state-of-the-art instrument elevates precision in isotope ratio analyses across a significant portion of the periodic table, enabling groundbreaking research across various scientific domains.
Key Features of the Neoma MC-ICP-MS include:
- The instrument's double focusing architecture, incorporating Nier-Johnson geometry, ensures exceptional precision and accuracy in isotope ratio measurement.
- Equipped with both axial Faraday and SEM detectors, alongside ten movable peripheral Faraday cups, the Neoma facilitates simultaneous multi-collection of ion beams, enhancing the efficiency and accuracy of isotope ratio determinations.
- The system is adeptly configured with advanced amplifiers and a secondary electron multiplier detector, accommodating a broad spectrum of ion beam intensities for diverse analytical needs.
- A groundbreaking XHR option provides extra high mass resolution, critical for distinguishing analytes from polyatomic interferences, ensuring unambiguous data interpretation.
- The Neoma's capabilities are proven across a variety of isotope systems, with validated techniques for analyzing radiogenic Sr and Pb, as well as mass-dependent isotopes such as Ca, Cr, Fe, Ni, Cu, Zn, Rb, Sr, Mo, Cd, Re, Hg and U, supporting an extensive range of research applications.
Whether exploring ancient geological transformations, investigating environmental changes, or advancing materials science, the Neoma MC-ICP-MS is your gateway to unparalleled precision in isotope analysis.
To learn more about how the Neoma MC-ICP-MS can support your research, visit the METAL Core page on the ASU Core Research Facilities website: cores.research.asu.edu/metals....
Experience the future of isotope ratio analysis with ASU Core Research Facilities' latest technological addition.
Негізгі бет Ғылым және технология ASU Core Research Facilities New Equipment Promo: Thermo Scientific Neona MC-ICP-MS
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