Pb Uptake from Polluted Irrigation Water Using Anatase TiO[sub.2] Nanoadsorbent

The adsorption characteristics of titanium dioxide nanoparticles (nano-TiO[sub.2]) for the removal of Pb(II) from irrigation water were investigated in this work. To accomplish this, several adsorption factors, such as contact time and pH, were tested to assess adsorption efficiencies and mechanisms...

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Veröffentlicht in:	Molecules (Basel, Switzerland) Switzerland), 2023-06, Vol.28 (12)
Hauptverfasser:	Vasquez-Caballero, Miguel A, Canchanya-Huaman, Yamerson, Mayta-Armas, Angie F, Pomalaya-Velasco, Jemina, Checca-Huaman, Noemi-Raquel, Bendezú-Roca, Yéssica, Ramos-Guivar, Juan A
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Sprache:	eng
Schlagworte:	Ethylenediaminetetraacetic acid Heavy metals Water pollution
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creator	Vasquez-Caballero, Miguel A Canchanya-Huaman, Yamerson Mayta-Armas, Angie F Pomalaya-Velasco, Jemina Checca-Huaman, Noemi-Raquel Bendezú-Roca, Yéssica Ramos-Guivar, Juan A
description	The adsorption characteristics of titanium dioxide nanoparticles (nano-TiO[sub.2]) for the removal of Pb(II) from irrigation water were investigated in this work. To accomplish this, several adsorption factors, such as contact time and pH, were tested to assess adsorption efficiencies and mechanisms. Before and after the adsorption experiments, commercial nano-TiO[sub.2] was studied using X-ray diffraction (XRD), scanning and transmission electron microscopy (SEM and TEM), energy dispersive spectroscopy (EDS), and X-ray photoelectron spectroscopy (XPS). The outcomes showed that anatase nano-TiO[sub.2] was remarkably efficient in cleaning Pb(II) from water, with a removal efficiency of more than 99% after only one hour of contact time at a pH of 6.5. Adsorption isotherms and kinetic adsorption data matched the Langmuir and Sips models quite well, showing that the adsorption process occurred at homogenous sites on the surface of nano-TiO[sub.2] by forming a Pb(II) adsorbate monolayer. The XRD and TEM analysis of nano-TiO[sub.2] following the adsorption procedure revealed a non-affected single phase (anatase) with crystallite sizes of 9.9 nm and particle sizes of 22.46 nm, respectively. According to the XPS data and analyzed adsorption data, Pb ions accumulated on the surface of nano-TiO[sub.2] through a three-step mechanism involving ion exchange and hydrogen bonding mechanisms. Overall, the findings indicate that nano-TiO[sub.2] has the potential to be used as an effective and long-lasting mesoporous adsorbent in the treatment and cleaning of Pb(II) from water bodies.
doi_str_mv	10.3390/molecules28124596
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The XRD and TEM analysis of nano-TiO[sub.2] following the adsorption procedure revealed a non-affected single phase (anatase) with crystallite sizes of 9.9 nm and particle sizes of 22.46 nm, respectively. According to the XPS data and analyzed adsorption data, Pb ions accumulated on the surface of nano-TiO[sub.2] through a three-step mechanism involving ion exchange and hydrogen bonding mechanisms. 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The XRD and TEM analysis of nano-TiO[sub.2] following the adsorption procedure revealed a non-affected single phase (anatase) with crystallite sizes of 9.9 nm and particle sizes of 22.46 nm, respectively. According to the XPS data and analyzed adsorption data, Pb ions accumulated on the surface of nano-TiO[sub.2] through a three-step mechanism involving ion exchange and hydrogen bonding mechanisms. Overall, the findings indicate that nano-TiO[sub.2] has the potential to be used as an effective and long-lasting mesoporous adsorbent in the treatment and cleaning of Pb(II) from water bodies.</abstract><pub>MDPI AG</pub><doi>10.3390/molecules28124596</doi></addata></record>
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subjects	Ethylenediaminetetraacetic acid Heavy metals Water pollution
title	Pb Uptake from Polluted Irrigation Water Using Anatase TiO[sub.2] Nanoadsorbent
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