NMR Methodology
  • Production and use of parahydrogen allows NMR spectra of higher sensitivity and better resolution. The gain of resolution is effective in particular for proton NMR, by the increasing of signals specific of some chemical functions, and by the use of ultrafast bidimensional NMR sequences.
  • Characterization of molecular and porous cavities using NMR spectroscopy of gas probes (noble gases, including hyperpolarized xenon, protonated gases), in liquid or gaseous phase
NMR Parahydrogen Hyperpolarization Gas probes