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The 21 T FT-ICR mass spectrometer identified four times the number of species in natural organic matter than lower magnetic field systems, providing a molecular catalogue to a widely-used standard reference material.

Identification of toxic compounds in drinking water formed through disinfection reveals more than 3500 toxic, chlorinated species that can only be observed by the MagLab's high powered analytical instruments.

The 21T FT-ICR MS instrument enables the molecular characterization of atmospheric hazes - like that on Saturn’s moon, Titan - and water vapor to better understand the evolution of biological molecules in exoplanet atmospheres. 

MagLab researchers use 21 tesla ion cyclotron resonance (ICR) mass spectrometry to identify the best way to produce carbon fibers from petroleum waste products. The best carbon fibers are made from molecules that don’t contain sulfur or large polycyclic aromatic hydrocarbon structures, and these bad molecules can be converted to better precursors by mild thermal treatment.

Wildfires changes the chemical composition of molecules in soil, and only the 21T FT-ICR mass spectrometer can assess the molecular composition to understand the long term impact of wildfires on soil chemistry.

Reuse of the MagLab's Ion Cyclotron Resonance facility data improved understanding of protein fragmentation and aided the design and release of new algorithms and software tools. This is representative of a new type of MagLab user: A Data User – who accesses MagLab data from public data repositories to advance independent research goals. 

Combining new data with an existing MagLab dataset, researchers characterized the millions of unique chemicals found in our waterways, including both natural compounds formed by the decomposition of plant matter and man-made toxic pollutants. 

Learn how the MagLab's high-field magnets are helping uncover the secrets of "forever chemicals."

MagLab analysis finds the space rock is among the most complex materials.

"We're opening up the world at a molecular level to understand how these fires are going to impact us."

The first mass spectrum from Fourier-Transform Ion Cyclotron Resonance happened in December 1973. The co-inventor went on to build MagLab’s world-renowned program.

Fuel made from corn harvest waste would reduce greenhouse emissions by 70%.

Researchers at the National High Magnetic Field Laboratory are working to learn more about predatory bacteria called BALOs and what role they could play, from the carbon cycle in our oceans to fighting infectious disease.

After years advising the lab as a member of our User and External Advisory Committees, Kristina (Kicki) Håkansson will now lead the MagLab’s ICR facility.

MagLab research works to find and catalog PFAS forever chemicals in our environment.

A deeper understanding of petroleum molecules is shedding a harsh light on how some of them behave in our environment.

A team of researchers pulls off a daring data caper in Delaware Bay, swiping secrets about the movement of molecules between air and water.