Litza Halla Velázquez-Jiménez scite author profile

When activated carbon (AC) is modified with zirconium(IV) by impregnation or precipitation, the fluoride adsorption capacity is typically improved. There is significant potential to improve these hybrid sorbent by controlling the impregnation conditions, which determine the assembly and dispersion of the Zr phases on carbon surfaces. Here, commercial activated carbon was modified with Zr(IV) together with oxalic acid (OA) used to maximize the zirconium dispersion and enhance fluoride adsorption. Adsorption experiments were carried out at pH 7 and 25 °C with a fluoride concentration of 40 mg L−1. The OA/Zr ratio was varied to determine the optimal conditions for subsequent fluoride adsorption. The data was analyzed using the Langmuir and Freundlich isotherm models. FTIR, XPS and the surface charge distribution were performed to elucidate the adsorption mechanism. Potentiometric titrations showed that the modified activated carbon (ZrOx-AC) possesses positive charge at pH lower than 7, and FTIR analysis demonstrated that zirconium ions interact mainly with carboxylic groups on the activated carbon surfaces. Moreover, XPS analysis demonstrated that Zr(IV) interacts with oxalate ions, and the fluoride adsorption mechanism is likely to involve –OH− exchange from zirconyl oxalate complexes.

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Chemical characterization of raw and treated agave bagasse and its potential as adsorbent of metal cations from water

Velázquez-Jiménez

Pavlick

Rangel-Mendez

2013

Industrial Crops and Products

191

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Fluoride removal in water by a hybrid adsorbent lanthanum–carbon

Vences-Álvarez¹,

Velázquez-Jiménez²,

Cházaro-Ruiz³

et al. 2015

Journal of Colloid and Interface Science

124

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Overview of As(V) adsorption on Zr-functionalized activated carbon for aqueous streams remediation

Velázquez-Jiménez

Arcibar‐Orozco

Rangel-Méndez

2018

Journal of Environmental Management

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