Remediation of Methyl Red Dye from Aqueous Solutions by Using Biosorbents Developed from Floral Waste

Amari, Abdelfattah; Yadav, Veejendra K.; Pathan, Sabir Khan; Singh, Braj Raj; Osman, Haitham; Choudhary, Nisha; Khedher, Khaled Mohamed; Basnet, Anup

doi:10.1155/2023/1532660

Cited by 17 publications

(6 citation statements)

References 72 publications

(88 reference statements)

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“…When the dye is removed in open conditions in the laboratory, the CuONPs simply act as an adsorbent that adsorbs the dye molecules through various interactions, like Vander Wall forces, electrostatic interaction, etc. [82]. Moreover, the CuONPs have various charged functional groups, which attract or repel the dye molecules and remove the dye from the medium.…”

Section: Mechanism Of Congo Red Dye Removal By Cuonpsmentioning

confidence: 99%

Phytonanofabrication of Copper Oxide from Albizia saman and Its Potential as an Antimicrobial Agent and Remediation of Congo Red Dye from Wastewater

Choudhary,

Chaudhari,

Mochi

et al. 2023

Water

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Metal nanoparticle fabrication through plant-based green methods is considered the gold standard among the various synthesis techniques owing to its simplicity, eco-friendliness, ease of use, and the huge diversity of plant species. Copper nanoparticles (CuONPs) have proven their potential in the fields of medicine, agriculture, pharmaceutics, and catalysis, and are being synthesized using various physicochemical and biological methods. Here, the authors have reported on the first-ever use of Albizia saman leaf extract for the development of CuONPs. Phytochemical analysis of the methanolic extracts of the plant exhibited the presence of phenols (32.31%), tannins (12.27%), and flavonoids (16.72%). The phytonutrients existing in leaf extract successfully reduced the copper salt in the CuONPs. A detailed investigation of the synthesized CuONPs was performed using advanced instruments. The UV-Vis spectra exhibited an absorbance peak at 290 nm, while the X-ray diffraction pattern (XRD) revealed that the average crystallite size was about 29.86 nm. Dynamic light scattering (DLS) revealed that the average hydrodynamic size of the CuONPs was 72.3 nm in diameter, while its zeta potential was −0.49, with a negative polarity. Fourier transform infrared spectroscopy showed the major bands in the region of 400 to 1000 cm−1, suggesting the formation of CuONPs, while the band in the region of 1100 to 2600 cm−1 shows the association of plant molecules with the phytonanofabricated CuO particles. Transmission and scanning electron microscopy showed the spherical shape of the CuONPs, whose size was about 20–50 nm. The phytonanofabricated CuO exhibited antibacterial activity by forming a zone of inhibition (ZOI) against Escherichia coli, Staphylococcus aureus, and Candida albicans. The removal efficiency of the CuONPs was 33.33% for Congo Red dye. The removal efficiency of the phytonanofabricated CuO for CR dye was reduced to 16% after the 4th cycle.

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Section: Mechanism Of Congo Red Dye Removal By Cuonpsmentioning

confidence: 99%

Phytonanofabrication of Copper Oxide from Albizia saman and Its Potential as an Antimicrobial Agent and Remediation of Congo Red Dye from Wastewater

Choudhary,

Chaudhari,

Mochi

et al. 2023

Water

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“…9 However, attention of the adsorption process for dye removal from wastewater arises from its cost-effectiveness, simplicity, environmental friendliness, versatility and the potential for adsorbent reuse. [10][11][12] Contrarily, the utilization of liquid-liquid (L-L) extraction is typically minimized in extensive wastewater research as a consequence of its inherent high operational costs. This technique involves the separation of metal complexes or compounds into two immiscible liquids, typically an organic solvent and water.…”

Section: Introductionmentioning

confidence: 99%

Maximizing methyl red dye removal efficiency: a targeted parameter approach

Behera,

Poddar,

Byun

2024

J of Chemical Tech & Biotech

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BACKGROUNDLiquid–liquid extraction plays a crucial role in the chemical industry for obtaining valuable products. This research focuses on optimizing key parameters, namely dye removal percentage, solvent capacity, and distribution coefficient, in the liquid–liquid extraction of methyl red dye from its aqueous solution using benzene as the extractant. The study investigates the influence of key variables, including feed dye concentration (20–100) ppm, extraction time (10–30) min and dye solution‐to‐solvent ratio (1–3) mL/mL. The experiments are conducted at a constant pH of 3 and controlled temperatures of (27 ± 2) °C.RESULTSStrategically controlling various parameters, this investigation aims to achieve superior outcomes, surpassing prior achievements in similar experimental conditions. Utilizing the Box‐Behnken design for optimization, the research attains a remarkable recovery efficiency of 84.61%. The achieved optimal values for dye removal, distribution coefficient, and solvent capacity are (84.61±5.07)%, 5.22±0.31, and (5.17±0.94) ppm, respectively, at a feed dye concentration of 20 ppm, an extraction time of 27.994 min, and a dye solution‐to‐solvent ratio of 3 mL/mL.CONCLUSIONThese findings underscore the potential for maximizing methyl red dye extraction efficiency and surpassing previously reported efficiency using the presented parameters with the same input data. The study contributes to advancements in liquid–liquid extraction technology and provides a deeper understanding of the optimization process with technical precision.This article is protected by copyright. All rights reserved.

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“…Every year there is a huge economic loss for treating these dyes contaminated wastewater ( Wang et al, 2022 ). The currently available technique for dye removal is flocculation, adsorption ( Amari et al, 2023 ; Modi et al, 2023 ), coagulation ( Wang L et al, 2021 ), precipitation, reverse osmosis ( Aragaw and Bogale, 2021 ; Dutta et al, 2021 ; Moradihamedani, 2022 ), photocatalysis, Fenton ( Merouani et al, 2022 ; Rafaqat et al, 2022 ; Deng and Brillas, 2023 ), ozonation ( Pourmoheb Hosseini and Chaibakhsh, 2022 ; Qazi et al, 2022 ), membrane filtration ( Li et al, 2015 ), nanofiltration ( Khan et al, 2022 ), ultrafiltration ( Rai et al, 2022 ), etc. Most of these techniques are less effective while the last two methods are expensive making the dye removal process very expensive ( Mohapatra and Kirpalani, 2019 ; Al-Asheh and Aidan, 2020 ).…”

Section: Introductionmentioning

confidence: 99%

Synthesis and characterization of titanium dioxide nanoparticles from Bacillus subtilis MTCC 8322 and its application for the removal of methylene blue and orange G dyes under UV light and visible light

Rathore,

Yadav,

Amari

et al. 2024

Front. Bioeng. Biotechnol.

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Over the last decade there has been a huge increase in the green synthesis of nanoparticles. Moreover, there is a continuous increase in harnessing the potential of microorganisms for the development of efficient and biocompatible nanoparticles around the globe. In the present research work, investigators have synthesized TiO2 NPs by harnessing the potential of Bacillus subtilis MTCC 8322 (Gram-positive) bacteria. The formation and confirmation of the TiO2 NPs synthesized by bacteria were carried out by using UV-Vis spectroscopy, Fourier transforms infrared (FT-IR), X-ray diffraction (XRD), scanning electron microscope (SEM), and energy dispersive X-ray spectroscopy (EDX/EDS). The size of the synthesized TiO2 NPs was 80–120 nm which was spherical to irregular in shape as revealed by SEM. FTIR showed the characteristic bands of Ti-O in the range of 400–550 cm−1 and 924 cm−1 while the band at 2930 cm−1 confirmed the association of bacterial biomolecules with the synthesized TiO2 NPs. XRD showed two major peaks; 27.5° (rutile phase) and 45.6° (anatase phase) for the synthesized TiO2 NPs. Finally, the potential of the synthesized TiO2 NPs was assessed as an antibacterial agent and photocatalyst. The remediation of Methylene blue (MB) and Orange G (OG) dyes was carried out under UV- light and visible light for a contact time of 150–240 min respectively. The removal efficiency for 100 ppm MB dye was 25.75% and for OG dye was 72.24% under UV light, while in visible light, the maximum removal percentage for MB and OG dye was 98.85% and 80.43% respectively at 90 min. Moreover, a kinetic study and adsorption isotherm study were carried out for the removal of both dyes, where the pseudo-first-order for MB dye is 263.269 and 475554.176 mg/g for OG dye. The pseudo-second-order kinetics for MB and OG dye were 188.679 and 1666.667 mg/g respectively. In addition to this, the antibacterial activity of TiO2 NPs was assessed against Bacillus subtilis MTCC 8322 (Gram-positive) and Escherichia coli MTCC 8933 (Gram-negative) where the maximum zone of inhibition in Bacillus subtilis MTCC 8322 was about 12 mm, and for E. coli 16 mm.

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Remediation of Methyl Red Dye from Aqueous Solutions by Using Biosorbents Developed from Floral Waste

Cited by 17 publications

References 72 publications

Phytonanofabrication of Copper Oxide from Albizia saman and Its Potential as an Antimicrobial Agent and Remediation of Congo Red Dye from Wastewater

Phytonanofabrication of Copper Oxide from Albizia saman and Its Potential as an Antimicrobial Agent and Remediation of Congo Red Dye from Wastewater

Maximizing methyl red dye removal efficiency: a targeted parameter approach

Synthesis and characterization of titanium dioxide nanoparticles from Bacillus subtilis MTCC 8322 and its application for the removal of methylene blue and orange G dyes under UV light and visible light

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