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Review date: July 24, 2003
PNNL-SA-27883

¹H Dynamic Nuclear Polarization in Supercritical Ethylene at 1.4T

R.A. Wind, S. Bai, J.Z. Hu, M.S. Solum, P.D. Ellis, D.M. Grant, R.J. Pugmire, C.M.V. Taylor and C.R. Yonker. 2000. J. Magn. Reson., 143, 233-239.

Abstract: ¹H dynamic nuclear polarization (DNP) has been measured in supercritical ethylene in the pressure range 60-300 bar in an external field of 1.4 T. A single-cell sapphire tube was used as a high-pressure cell, and powdered 1,3-bisdiphenylene-2-phenyl allyl (BDPA) free radicals were added and distributed at the wall of the cell. At all pressures the dominant DNP mechanism was a positive Overhauser enhancement, caused by proton-electron contact interactions at the fluid/solid radical interface. The observed enhancements varied from 12 at 60 bar to 17 at 300 bar. Besides the Overhauser enhancement, small solid state and thermal mixing enhancements also were observed, indicating that part of the ethylene was adsorbed at the radical surface for a prolonged time. The impacts of the experimental conditions on the Overhauser enhancement factors are discussed, and enhancements of at least 40-60 are estimated when the EPR saturation factor and the leakage factor become maximal. These data indicate the DNP-enhanced NMR has the potential of extending the impact of NMR in research areas involving supercritical fluids.