Adsorption of nitrophenol onto a novel Fe3O4-κ-carrageenan/MIL-125(Ti) composite: process optimization, isotherms, kinetics, and mechanism

Water pollution is a dreadful affair that has incessantly aggravated, exposing our planet to danger. In particular, the persistent nitro aromatic compound like nitrophenols causes anxiety to the researchers due to their hazardous impacts, excessive usage, and removal difficulty. For this purpose, a...

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Published in:Environmental science and pollution research international 2023-04, Vol.30 (17), p.49301-49313
Main Authors: Abd El-Monaem, Eman M., Eltaweil, Abdelazeem S., El-Subruiti, Gehan M., Mohy-Eldin, Mohamed S., Omer, Ahmed M.
Format: Article
Language:English
Subjects:
Adsorption
Adsorptivity
Aquatic Pollution
Aromatic compounds
Atmospheric Protection/Air Quality Control/Air Pollution
Carrageenan
Carrageenans
Earth and Environmental Science
Ecotoxicology
Environment
Environmental Chemistry
Environmental Health
Environmental science
Iron oxides
Isotherms
Magnetic properties
Nitrophenol
o-Nitrophenol
Optimization
Research Article
Synergistic effect
Waste Water Technology
Water Management
Water pollution
Water Pollution Control
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Summary:Water pollution is a dreadful affair that has incessantly aggravated, exposing our planet to danger. In particular, the persistent nitro aromatic compound like nitrophenols causes anxiety to the researchers due to their hazardous impacts, excessive usage, and removal difficulty. For this purpose, a novel multi-featured composite was constructed based on κ-Carrageenan (κ-Carr), MOF (MIL-125(Ti)), and magnetic Fe 3 O 4 for efficient adsorptive removal of o-nitrophenol (o-NP). Interestingly, BET measurements revealed the high surface area of Fe 3 O 4 -κ-Carr/MIL-125(Ti) of about 163.27 m 2 /g, while VSM showed its excellent magnetic property (20.34 emu/g). The comparison study pointed out the synergistic effect between Fe 3 O 4 , κ-Carr, and MIL-125(Ti), forming a composite with an excellent adsorption performance toward o-NP. The adsorption data obeyed pseudo-second-order kinetic model, and Freundlich isotherm model was better fitted than Langmuir and Temkin. Furthermore, Langmuir verified the supreme adsorption capacity of o-NP onto Fe 3 O 4 -κ-Carr/MIL-125(Ti) since the computed q max  reached 320.26 mg/g at pH 6 and 25 °C. Furthermore, the XPS results postulated that the adsorption mechanism pf o-NP proceeded via H-bonding, π - π interaction, and electron donor–acceptor interactions. Interestingly, Fe 3 O 4 -κ-Carr/MIL-125(Ti) composite retained good adsorption characteristics after reusing for five cycles, suggesting its viable applicability as an efficient, renewable, and easy-separable adsorbent for removing nitro aromatic pollutants.
ISSN:1614-7499
0944-1344
1614-7499
DOI:10.1007/s11356-023-25678-2