Adsorption of Congo Red on Pb doped FexOy: Experimental study and theoretical modeling via double-layer statistical physics models

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Abstract

Size-controlled Pb0.06Fe0.7O3 nanoparticles (Pb-FeONPs) were fabricated by the thermal co-precipitation method and characterized by FE-SEM, EDX, XRD, and IR techniques. The SEM and XRD images showed the average size distribution and average crystallite size of 19.21 nm and 4.9 nm, respectively. The kinetic model of Congo Red (CR) adsorption onto Pb-FeONPs was verified and found to be a pseudo-second-order reaction. The Langmuir plot was better fitted (R2 = 0.990) than other isotherm models with a Qmax (mg/g) of 500 for Congo Red (CR) dye in 40 min. The double-layer statistical physics model based on two energies was used to calculate the significant parameters. The n (stoichiometric coefficient) values obtained from the statistical physics double-layer model were found to be 0.599, 0.593, and 0.565, which are less than 1, indicating the multi-docking process. The regeneration of Pb-FeONPs was used for up to 5 cycles effectively, making the material highly economical. The Pb-FeONPs were fruitfully applied for the removal of CR dye from wastewater on a laboratory and industrial scale.

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Fegade, U., Kolate, S., Dhake, R., Inamuddin, Altalhi, T., & Kanchi, S. (2021). Adsorption of Congo Red on Pb doped FexOy: Experimental study and theoretical modeling via double-layer statistical physics models. Water Science and Technology, 83(7), 1714–1727. https://doi.org/10.2166/wst.2021.077

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