Spinsolve Phosphorus
Magritek43 MHz Benchtop NMR Spectrometer with Proton, Fluorine and Phosphorus capability.
Materials analysis examines the properties, composition, and behavior of materials at a microscopic and macroscopic level. Using advanced techniques such as microscopy, spectroscopy, and chromatography, materials analysts investigate the structure, purity, and performance of various substances. From industrial materials and nanomaterials to battery testing and beyond, this field provides critical insights into the characteristics and applications of materials across industries such as manufacturing, electronics, and healthcare. Explore how materials analysis drives innovation, quality assurance, and product development for a wide range of applications.
43 MHz Benchtop NMR Spectrometer with Proton, Fluorine and Phosphorus capability.
As new technologies and applications to study environmental, food, water, and exposure contaminants advance, CIL continues to maintain a leadership role working with researchers to develop new standards to meet the latest needs. With new instrumentation and extraction procedures allowing detection limits approaching attogram levels in some cases, the need for highly accurate isotope standards has never been greater.
CIL's NMR solvents are the preferred solvents worldwide for academic, pharmaceutical, industrial and government researchers. CIL has two dedicated NMR spectrometers for in-process testing, as well as three additional NMR spectrometers in its Quality Control department. Every lot of CIL solvent is routinely tested for both chemical and isotopic purity prior to release to inventory. 1H-NMR data is acquired for each solv…
Precise, high-speed elemental analysis for process control in metal production
Improve data quality, lower costs, and increase LC/MS throughput without compromising data quality or sensitivity. The Thermo Scientific™ Transcend™ II system combines proprietary Thermo Scientific™ TurboFlow™ online sample preparation technology and a unique HPLC multi-channel technique to bring the productivity of up to four separate, parallel UHPLC channels to a single mass spectrometer.
Your dedicated routine microscope.