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Measurement of the 129Xe NMR Chemical Shift of Supercritical Xenon

  • D. Baumer , A. Fink and E. Brunner
Published/Copyright: May 7, 2008
Zeitschrift für Physikalische Chemie
From the journal Zeitschrift für Physikalische Chemie Volume 217 Issue 3

Abstract

The measurement of the 129Xe Nuclear Magnetic Resonance (NMR) chemical shift as a function of density is reported. The apparatus used in this study enabled us to measure the 129Xe NMR chemical shift in the supercritical state up to a pressure of about 70 MPa, i.e., a density of 440 amagat1 at 298 K.

Published Online: 2008-5-7
Published in Print: 2003-3-1

© 2003 Oldenbourg Wissenschaftsverlag GmbH

Articles in the same Issue

  1. The Characterization of Metal–Metal Bonds in Unsaturated Binuclear Homoleptic Transition Metal Carbonyls. The Compliance Matrix
  2. Quantum Chemical Investigation of Spin-Forbidden Transitions in Dithiosuccinimide
  3. Rovibronic States in the X2Π State of the CCS Anion
  4. Ab initio MRD-CI Study of the Electronic Spectrum of Tribromomethanol Br3COH and the Photofragmentation along Br–C and C–O Cleavage
  5. Theoretical Study of the Dissociation and Isomerization of NCS
  6. Theoretical Study of the Vertical Electronic Spectra, Electron-Spin g-Factors and Hyperfine Coupling Constants of the (C2v) Cyclic Radicals C3+, Si3+, C3 and Si3
  7. Measurement of the 129Xe NMR Chemical Shift of Supercritical Xenon
https://doi.org/10.1524/zpch.217.3.289.20465

Articles in the same Issue

  1. The Characterization of Metal–Metal Bonds in Unsaturated Binuclear Homoleptic Transition Metal Carbonyls. The Compliance Matrix
  2. Quantum Chemical Investigation of Spin-Forbidden Transitions in Dithiosuccinimide
  3. Rovibronic States in the X2Π State of the CCS Anion
  4. Ab initio MRD-CI Study of the Electronic Spectrum of Tribromomethanol Br3COH and the Photofragmentation along Br–C and C–O Cleavage
  5. Theoretical Study of the Dissociation and Isomerization of NCS
  6. Theoretical Study of the Vertical Electronic Spectra, Electron-Spin g-Factors and Hyperfine Coupling Constants of the (C2v) Cyclic Radicals C3+, Si3+, C3 and Si3
  7. Measurement of the 129Xe NMR Chemical Shift of Supercritical Xenon
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