Removal of As(V) from aqueous solutions using calcium-alginate microspheres with encapsulated iron nanoparticles

Ruiz-Mora, María Soledad; Alfaro-Cuevas-Villanueva, Ruth; Martínez-Miranda, Verónica; Hernández-Cristóbal, Orlando; Cortés-Martínez, Raúl

doi:10.2166/ws.2021.429

Cited by 3 publications

(3 citation statements)

References 60 publications

(77 reference statements)

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“…It facilitates the interaction between the functional groups of the adsorbent and the solute, hence promoting the coordination of ions with Fe(III) in the adsorbent. [66] The above corroborates that Fe-NPs enhance the performance of Ch-Fe for the removal of As(V).…”

Section: Effect Of Ph On As(v) Removalsupporting

confidence: 72%

“…However, at high temperatures (35 and 45 °C), this improvement is not significant compared to the Ch‐SD system. The calculated Qo values at high temperatures range from 42 mg/g to 150 mg/g, suggesting the high efficacy for As(V) removal using these composites and providing an advantage for applying such materials, particularly in the treatment of geothermal arsenic‐polluted waters [66] . The shape of the isotherms at high temperatures presents a steeper slope due to the effect of temperature on the adsorption capacity of the composite.…”

Section: Resultsmentioning

confidence: 97%

“…The calculated Qo values at high temperatures range from 42 mg/g to 150 mg/g, suggesting the high efficacy for As(V) removal using these composites and providing an advantage for applying such materials, particularly in the treatment of geothermal arsenic-polluted waters. [66] The shape of the isotherms at high temperatures presents a steeper slope due to the effect of temperature on the adsorption capacity of the composite. This fact indicates that the increase in the temperature of the aqueous solution greatly improves the removal of arsenates due to various factors related to the characteristics of the composite.…”

Section: Adsorption Isothermsmentioning

confidence: 99%

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Arsenate Adsorption from Aqueous Solutions Using Chitosan/Fe‐Nanoparticles Composite Microspheres

Manzo‐Valencia,

Alfaro‐Cuevas‐Villanueva,

Zárate‐Medina

et al. 2024

ChemistrySelect

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The adsorption behavior and synthesis of a chitosan microsphere composite with iron nanoparticles (Ch‐Fe) for the removal of arsenates [As(V)] from aqueous solutions were investigated. First, the chitosan microspheres (Ch‐SD) were obtained using the Spray Dryer volatilization technique (SD), optimizing their particle size. Then, the iron nanoparticles (Fe‐NPs) were prepared using the microwave precipitation technique. The composite was characterized, and the arsenate adsorption parameters were determined through batch‐type experiments. Significantly fast adsorption rates were observed for both adsorbents. Besides, Ch‐Fe and Ch‐SD effectively removed arsenates over a wide pH range. The hydroxyl and amino functional groups are involved in removing arsenates. The Pseudo‐second order and the Elovich models described arsenate kinetic sorption data for Ch‐Fe and Ch‐SD, respectively. The As(V) maximum adsorption capacities were 27.46 mg/g and 29.94 mg/g for Ch‐SD and Ch‐Fe, respectively, increasing significantly at elevated temperatures. The Langmuir‐Freundlich model adequately described the isothermal data for both materials, suggesting adsorption heterogeneity. The composite's surface impregnation with Fe‐NPs enhanced the Ch‐SD adsorption properties. The SD method was suitable for obtaining the chitosan/Fe‐NPs microspheres and effectively removed As(V) from aqueous solutions.

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Section: Effect Of Ph On As(v) Removalsupporting

confidence: 72%

Section: Resultsmentioning

confidence: 97%

Section: Adsorption Isothermsmentioning

confidence: 99%

See 1 more Smart Citation

Arsenate Adsorption from Aqueous Solutions Using Chitosan/Fe‐Nanoparticles Composite Microspheres

Manzo‐Valencia,

Alfaro‐Cuevas‐Villanueva,

Zárate‐Medina

et al. 2024

ChemistrySelect

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Arsenic removal from contaminated water utilizing novel green composite Chlorella vulgaris and nano zero-valent iron

Islam

Maamoun

Falyouna

et al. 2023

Journal of Molecular Liquids

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Optimizing the performance of As(III) and As(V) adsorption process on magnetic carbon xerogel nanocomposites from aqueous solution and natural groundwater wells

Khamkure

Cabello-Lugo

Bustos-Terrones

et al. 2023

Preprint

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This research focuses on generating magnetic adsorbents with less expensive precursors, a simple and cheap method of subcritical drying for xerogel, and easily recovered from the aqueous medium with magnetic properties for reducing impact of pollutants in the environment. The application of the response surface methodology (RSM) in optimization of As(III) and As(V) adsorption process on carbon xerogel nanocomposites (XMCs) from aqueous solution was proposed in this study under the scheme of a central composite design 23 with a central face. XMCs were synthesized from sol-gel polymerization of a resorcinol-formaldehyde composited with magnetite nanoparticles (MNPs) and carbonized at 600°C for 6 h. MNPs were incorporated into the structure of gels corresponding to the XRD, FTIR and SEM/EDX analysis. The varying stoichiometric of resorcinol/water ratios had a significant effect on the resulting texture and surface chemistry properties. The model obtained by RSM was able to acquire the optimal values of the variables (solution pH, dose, and initial concentration) to maximize the removal of As(V) and As(III) of 95±5.98% and 65±10.32%, respectively. The kinetic and equilibrium studies were well described by the pseudo second order and Freundlich isotherm, respectively. Thermodynamic analysis was endothermic and spontaneous in nature. The removal efficiency in groundwater found arsenic at levels lower than the WHO standards.

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Removal of As(V) from aqueous solutions using calcium-alginate microspheres with encapsulated iron nanoparticles

Cited by 3 publications

References 60 publications

Arsenate Adsorption from Aqueous Solutions Using Chitosan/Fe‐Nanoparticles Composite Microspheres

Arsenate Adsorption from Aqueous Solutions Using Chitosan/Fe‐Nanoparticles Composite Microspheres

Arsenic removal from contaminated water utilizing novel green composite Chlorella vulgaris and nano zero-valent iron

Optimizing the performance of As(III) and As(V) adsorption process on magnetic carbon xerogel nanocomposites from aqueous solution and natural groundwater wells

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