National Resource for Advanced NMR Technology

Our mission: To advance biomedical NMR technology at high magnetic fields with state-of-the-art NMR probes and techniques, making it readily available to a broad user community.

MagLab Probes

Five N-M-R probes and their applications including: a 3.2 m-m X M-A-S probe for materials which is not available commercially; a 1 H-X static probe for biosolids and materials; a 2 m-m 1 H-X-Y M-A-S probe for multidimensional N-M-R; a new 3.2 m-m 1 H-X middle-gamma M-A-S probe for materials and biosolids; and a new 3.2 m-m 1 H-X low-gamma M-A-S probe for materials.

TDP1) High Temperature Superconducting (HTS) NMR Resonators

A diagram of an H-T-S N-M-R resonator. — TDP1) High Temperature Superconducting (HTS) NMR Resonators

A chart of N-M-R spectra gathered using an H-T-S probe.

TDP2) Dynamic Nuclear Polarization (DNP) for biomedical research

D-N-P system at the MagLab — TDP2) Dynamic Nuclear Polarization (DNP) for biomedical research

A two-panel figure illustrating the increased efficacy of D-N-P N-M-R for distinguishing lignin and carbohydrates when compared to N-M-R without D-N-P

TDP3) Series Connected Hybrid (SCH) NMR Spectroscopy

Three scientists working at the Series Connected Hybrid N-M-R system — TDP3) Series Connected Hybrid (SCH) NMR Spectroscopy

1.3 m-m stator