Abstract
There is much interest in examining the structure of sulfur compounds because of the role of sulfur as a principal contributor to environmental pollution. By a pulsed NMR technique, the extremely weak free induction decay signal of <sup>33</sup>S in several liquid compounds was detected. Using the relatively easy to detect carbon disulfide resonance as a reference model, a method is discussed for studying sulfur compounds which takes into consideration the symmetry and spin relaxation parameters (<i>T</i><sub>1</sub> and <i>T</i><sub>2</sub>). Consideration is given to the instrumental parameters which can be varied to enhance <sup>33</sup>S pulsed NMR resonances.
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