![Metabolism pathways of [2H7]glucose (green stars), with red dots marking the presence of 2H, and larger dots indicating two 2H atoms. Note that HDO (gold stars) can be produced at multiple steps in the glycolytic pathway.](https://nationalmaglab.org/images/users/nmr_mri/amris/highlights/august2020_amris_cancer_metabolism.jpg "Metabolism pathways of [2H7]glucose (green stars), with red dots marking the presence of 2H, and larger dots indicating two 2H atoms. Note that HDO (gold stars) can be produced at multiple steps in the glycolytic pathway.")
Research Initiatives
MATERIALS
Scientists use our magnets to explore semiconductors, superconductors, newly-grown crystals, buckyballs and materials from the natural world — research that reveals the secret workings of materials and empowers us to develop new technologies.
ENERGY
Scientists here are working to optimize petroleum refining, advance potential bio-fuels such as pine needles and algae, and fundamentally change the way we store and deliver energy by developing better batteries.
LIFE
With the world’s strongest MRI magnet, scientists here study everything from living animals to individual cells, from proteins to disease-fighting molecules found in plants and animals — work that could improve treatment of AIDS, cancer, Alzheimer’s and other diseases.
Latest Science Highlights
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Deuterium Magnetic Resonance Can Detect Cancer Metabolism
1 September 2020
Magnetic resonance of cancer cell metabolism is a novel technique to discern between cancerous and normal liver cells, providing a promising approach for cancer stage progression imaging without the harmful exposure of radiation.
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Hidden Magnetism Revealed in a Cuprate Superconductor
1 September 2020
This research clarifies fundamental relationships between magnetism, superconductivity and the nature of the enigmatic “pseudogap state" in cuprate superconductors. The discovery provides an additional puzzle piece in the theoretical understanding of high-temperature superconductors - a key towards improving and utilizing these materials for technological applications.
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Smart Non-Linear Transport Technique Expands the Frontier of Superconductor Research
28 July 2020
Superconductors conduct large amounts of electricity without losses. They are also used to create very large magnetic fields, for example in MRI machines, to study materials and medicine. Here, researchers developed a fast, new "smart" technique to measure how much current a superconductor can carry using very high pulsed magnetic fields.
Featured Publications
Deuterium Magnetic Resonance Can Detect Cancer Metabolism by Measuring the Formation of Deuterated Water, R. Mahar, Nature Scientific Reports, 10 (1), 8885 (2020) See Science Highlight or Read online
High magnetic fields reveal hidden magnetism in a cuprate superconductor, M. Frachet, Nature Physics, 16, 1745-2481 (2020) See Science Highlight or Read online
Smart Non-Linear Transport Technique Expands the Frontier of Superconductor Research, M. Leroux., Physical Review Applied, 11, 054005 (2019) See Science Highlight or Read online
Inducing Magnetic Ring Currents in Non-Magnetic Aromatic Molecules: A Finding From the 25 T Split-Florida Helix , B. Kudisch, et al., Proceedings of the National Academies of Science, 117 (21), 11289-11298 (2020) See Science Highlight or Read online
Molecular magnetic building blocks , J.-L. Liu, et al., Angew. Chem., February (2020) See Science Highlight or Read online
Exploring Topological Semimetals in High Magnetic Fields , J. Liu, et al., Phys. Rev. B, 100, 195123 (2019) See Science Highlight or Read online
MRI detects brain responses to Alzheimer’s disease plaque deposits and inflammation, L.M. Colon-Perez, et al., NeuroImage, 202, 116138 (2019) See Science Highlight or Read online
Analytical tool for in vivo triple quantum MR signals, V.D. Schepkin Zeitschrift fur Medizinische Physik, 29 (4), 326-336 (2019) See Science Highlight or Read online
Nuclear Spin Patterning Controls Electron Spin Coherence , C.E. Jackson, et al., , Chem. Sci., 10 (36), 8447-8454 (2019) See Science Highlight or Read online
Influence of a nematic phase on high-temperature superconductivity , P. Reiss, et al., Nature Physics, 28, Oct (2019) See Science Highlight or Read online
High Magnetic Field MRI Evidences Pathwaysfor Metabolic Brain Waste Clearance, K. N. Magdoom, et al., Nature Scientific Reports, 9, 11480 (2019) See Science Highlight or Read online
Liquid State Dynamic Nuclear Polarization at High Magnetic Field, T. Dubroca, et al., Phys. Chem. Chem. Phys, 21 21200-21204 (2019) See Science Highlight or Read online
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Safety at the Lab
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What Scientists Do at the MagLab
