Solid-state nitrogen-14 nuclear magnetic resonance enhanced by dynamic nuclear polarization using a gyrotron
By combining indirect detection of N-14 with dynamic nuclear polarization (DNP) using a gyrotron, the signal-to-noise ratio can be dramatically improved and the recovery delay between subsequent experiments can be shortened. Spectra of glassy samples of the amino acid proline doped with the stable bi-radical TOTAPOL rotating at 15.625 kHz at 110K were obtained in a 400 MHz solid-state NMR spectrometer equipped with a gyrotron for microwave irradiation at 263 GHz. DNP enhancement factors on the order of epsilon similar to 40 were achieved. The recovery delays can be reduced from 60 s without radicals at 300 K to 6 s with radicals at 110 K. In the absence of radicals at room temperature, the proton relaxation in proline is inefficient due to the absence of rotating methyl groups and other heat sinks, thus making long recovery delays mandatory. DNP allows one to reduce the acquisition times of C-13-detected N-14 spectra from several days to a few hours. (C) 2010 Elsevier Inc. All rights reserved.
Keywords: Nitrogen-14 NMR ; Dynamic nuclear polarization ; Indirect detection ; Low-temperature MAS ; Gyrotron microwave source ; Heteronuclear Dipolar Interactions ; Rotary Resonance ; Nmr-Spectroscopy ; Frequency ; Sequences
Record created on 2010-08-26, modified on 2016-08-08