Arabian Journal of Chemistry (Jun 2022)
Controlling the diffusion of micro-volume Pb solution on hydrophobic polyurethane membrane for quantitative analysis using laser-induced breakdown spectroscopy (LIBS)
Abstract
This work reports a novel controlling mechanism of analyte diffusion in a micro volume solution (100 μL) into a hydrophobic membrane. This study was designed to facilitate the liquid–solid conversion using membrane for laser-induced breakdown spectroscopy (LIBS) in quantitatively analyzing aqueous lead (Pb) pollutant. Herein, we used the same analyte (Pb) solution applied on one side of the membrane (back side) to enhance the diffusion of the analyte administered from the other side (front side). The membrane was confirmed hydrophobic with contact angles ranged from 104.6°±1.3° to 106.28°±1.7°, where its morphology had smooth surface and randomly distributed small pores. We found the limit of detection (LOD) to reach 184.2 mg/L derived from a calibration curve with Pb I (405.7 nm) line intensity as the dependent variable, where the root-mean-square-errors (RMSE) and correlation (R2) were 1.08 M and 0.999, respectively. In comparison, the membrane back side with distilled water achieved LOD as low as 134.53 mg/L obtained from the similar calibration curve (RMSE = 5.8 M; R2 = 0.986). Further analysis using the LIBS spectra confirmed the role of the analyte ion on the back side of the membrane in enhancing the analyte diffusion.