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The Impact of Ar or N 2 Atmosphere on the Structure of Bi-Fe-Carbon Xerogel Based Composites as Electrode Material for Detection of Pb 2+ and H 2 O 2 .

Carmen I FortMihai M RusuLiviu C CotetAdriana VulpoiMilica TodeaMonica BaiaLucian Baia
Published in: Gels (Basel, Switzerland) (2024)
In this study, bismuth- and iron-embedded carbon xerogels (XG) were obtained using a modified resorcinol formaldehyde sol-gel synthesis method followed by additional enrichment with iron content. Pyrolysis treatment was performed at elevated temperatures under Ar or N 2 atmosphere to obtain nanocomposites with different reduction yields (XGAr or XGN). The interest was focused on investigating the extent to which changes in the pyrolysis atmosphere of these nanocomposites impact the structure, morphology, and electrical properties of the material and consequently affect the electroanalytical performance. The structural and morphological particularities derived from X-ray diffraction (XRD), Raman spectroscopy, scanning electron microscopy (SEM), transmission electron microscopy (TEM), and X-ray photoelectron spectroscopy (XPS) measurements revealed the formation of the nanocomposite phases, mostly metal/oxide components. The achieved performances for the two modified electrodes based on XG treated under Ar or N 2 atmosphere clearly differ, as evidenced by the electroanalytical parameters determined from the detection of heavy metal cations (Pb 2+ ) or the use of the square wave voltammetry (SWV) technique, biomarkers (H 2 O 2 ), or amperometry. By correlating the differences obtained from electroanalytical measurements with those derived from morphological, structural, and surface data, a few utmost important aspects were identified. Pyrolysis under Ar atmosphere favors a significant increase in the α-Fe 2 O 3 amount and H 2 O 2 detection performance (sensitivity of 0.9 A/M and limit of detection of 0.17 μM) in comparison with pyrolysis under N 2 (sensitivity of 0.5 A/M and limit of detection of 0.36 μM), while pyrolysis under N 2 atmosphere leads to an increase in the metallic Bi amount and Pb 2+ detection performance (sensitivity of 8.44 × 10 3 A/M and limit of detection of 33.05 pM) in comparison with pyrolysis under Ar (sensitivity of 6.47·10 3 A/M and limit of detection of 46.37 pM).
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