Static dielectric constants of acetonitrile/water mixtures in the whole composition range and within the temperature
range from (15 to 60) °C have been measured. The values were fitted to a unique equation as a simultaneous
function of temperature and acetonitrile composition. Densities of these mixtures at temperatures from (5 to 55)
°C and different compositions have been collected from the literature. The complete data set was critically analyzed,
the outliers were excluded, and the remaining values were also fitted to a unique equation as a function of
temperature and acetonitrile composition. From the dielectric constants and densities, the activity coefficients of
ions can be calculated by means of the Debye−Hückel approach, allowing the study of the ionic equilibria and
determination of reference pH values or acidity constants in any acetonitrile/water mixture at any temperature
within the studied range.
This study examines the possibility of using a biobased product isolated from urban solid wastes as a material for environmental technological applications. To this end, Fe 3 O 4 nanoparticles (NPs) coated with different amounts of soluble biobased products (SBO) were synthesized as a low-cost nanoadsorbent for the removal of pollutants in wastewater. Particles of 10 nm diameter with an Fe 3 O 4 core and SBO shell were obtained. The concentration of SBO employed in the synthesis had no effect on the size and structure of the NPs but ruled the pH PZC and aggregation of the nanoparticles in water. The cationic dye crystal violet (CV) was used as a model pollutant to test the adsorption capacity of the nanoparticles. The results indicated that both the medium pH and NP dosage were significant parameters to enhance the removal of CV. The results contribute to the studies that show how wastes can become a source of revenue through the industrial exploitation of their chemical value.
The SSpH in acetonitrile/water mixtures at different temperatures cannot be directly measured because of the lack of calibration buffers in these hydroorganic media at most temperatures different from 25 degrees C. In this paper, the delta parameter has been determined for acetonitrile/water mixtures from 0 up to 90% acetonitrile at different temperatures from 15 to 60 degrees C, and the values were fitted to a very simple simultaneous function of composition and temperature. The delta values allow conversion of the SWpH scale (pH measured in acetonitrile/water with electrodes calibrated in water) to the SSpH scale (pH measured in acetonitrile/water with electrodes calibrated in the same acetonitrile/water mixture). The practical determination of SWpH is direct because the calibration of the electrodes is carried out with commercial aqueous standard buffers. Thus, the SSpH value of any buffered acetonitrile/water mobile phase used in reversed-phase liquid chromatography, which is directly related to the ionized fraction of analyte and, therefore, to its average retention, can be easily known at any temperature from the measured SWpH and the corresponding delta value.
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