Results

During this project, a submersible electrochemical probe at the end of a 50-foot-long shielded cable was developed using a carbon-fiber electrode assembly for the real-time monitoring of nitro-organic explosives in natural water buffered with sodium chloride. The reduction of the nitro moiety group allowed convenient and rapid square-wave voltammetric measurements of trace levels of nitroaromatic explosives (TNT, TNB and tetryl) down to levels of 50-100 ppb. A newly developed subtraction algorithm was used to minimize background contributions. A highly stable response was observed for prolonged (i.e., 10 hour) operations in natural water samples, indicating no apparent surface fouling. Detection limits for nitroamine explosives (HMX and RDX) and nitrocellulose were in the range of 1-2 parts per million. The peak potential for nitroamine explosives was directly superimposed onto the oxygen peak in the voltammogram resulting in a significant increase in detection limits. To successfully measure nitroamine compounds, oxygen removal will be required. Several potential interferences were investigated including monoand di-nitrotoluene, 4-amino-2,6-dinitrotoluene, trichloroethylene, nitrates, chromate, and perchlorate. Laboratory studies determined that only degradation products of nitroaromatic explosives containing a nitro group interfere with the measurement of the nitroaromatic parent explosive. This SEED project was completed in FY 2001.