UV-VISIBLE SPECTROSCOPIC MEASUREMENT OF SOLUBILITIES IN SUPERCRITICALCO2 USING HIGH-PRESSURE FIBEROPTIC CELLS

The design and construction of a microscale, fiber-optics-based system for the measurement of solubilities in supercritical CO2 by UV-visibl e spectroscopy is described. This system consists of three high-pressu re fiberoptic cells, with path lengths ranging from 38 mu m to 1 cm, c onstructed from standard 1/16-in. stainless steel fittings and silica fibers. It is capable of withstanding pressures in excess of 300 atm, and spectra over the entire W-visible range (200-900 nm) can be obtain ed. Use of three cells with different path lengths enables compounds o f high or low solubility to be measured over a concentration range of several orders of magnitude. The solubility of a uranium complex, UO2( tta)(2).TBP, hi supercritical CO2 at 40 degrees C and over the pressur e range 100-325 atm was determined, and it was found to be possible to attain solubilities in excess of 10(-2) M for metal species in unmodi fied supercritical CO2. Also, the small volume of this system allows s olubilities to be measured with relatively small amounts of compounds.