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The MagLab is funded by the National Science Foundation and the State of Florida.

Solid-State Capabilities & Techniques

Double- and triple-resonance static Low-E probes with sample coils for both flat and bicelle sample preparations are available at 900, 720, 600, and 4…


Sensitive triple-resonance Low-E 1HXY MAS probes are available to users at 900, 800 and 600 MHz.


19F is the most sensitive NMR nucleus besides 1H and its chemical shift is extremely sensitive to local electrostatic and van der Waals environments.


Powered magnets using conventional conductor and water cooling can generate magnetic fields much higher than superconducting magnets. These magnets ca…


The Low-E feature helps to sustain 1H decoupling in the presence of lossy electrolytes. A specially constructed in situ STRAFI probe at 830 MHz can be…


The 1HX broadband transmission line MAS probe has a temperature range down to -140°C depending on spinning speed.


DNP has been demonstrated to increase the sensitivity of NMR experiments by several orders of magnitude, which can lead to additional information abou…


Central transitions of half-integer quadrupolar nuclei are broadened by second-order quadrupolar shift even under magic angle spinning (MAS). High mag…


Magic-angle sample spinning (MAS) is the standard method for obtaining high-resolution NMR spectra of solids. In the presence of strong dipolar-dipola…


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