Abstract
In this paper, the organic gel polyacrolein (PAOG) was prepared by NaOH-induced ionic polymerization with acrolein as raw material, which presented good adsorption performance on acid fuchsin (AF). It has been characterized using BET, FT-IR, zeta potential measurements, and XPS to determine the structural and physicochemical properties of PAOG. The adsorption performance was examined in relation to contact time, temperature, and pH value. According to the results, polyacrolein gel adsorbent had a fast adsorption rate, and the adsorption process basically reached equilibrium in the first thirty minutes, which agreed with the pseudo-second-order kinetics. It was determined that the adsorption isotherm conformed to the Langmuir model, which was the endothermic spontaneous reaction (ΔH > 0, ΔG < 0). The five executed adsorption–desorption cycles of AF suggested a good reusability of PAOG. These results can help us better understand the adsorption mechanism of PAOG on AF and provide useful treatment method for removing AF.
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References
Zeng H, Gao M, Shen T et al (2018) Modification of silica nanosheets by gemini surfactants with different spacers and its superb adsorption for rhodamine B. Colloids Surf A Physicochem Eng Aspects 555:746–753
Visa M, Bogatu C, Duta A (2010) Simultaneous adsorption of dyes and heavy metals from multicomponent solutions using fly ash. Appl Surf Sci 256(17):5486–5491
Lin S, Chen M (1997) Combined ozonation and ion exchange treatments of textile wastewater effluents. Environ Sci Health Part A 32(7):1999–2010
Wu J, Eiteman MA, Law SE (1998) Evaluation of membrane filtration and ozonation processes for treatment of reactive-dye wastewater. Environ Eng 124(3):272–277
Ovejero G, Sotelo JL, Rodríguez A et al (2011) Wet air oxidation and catalytic wet air oxidation for dyes degradation. Environ Sci Pollut Res 18(9):1518–1526
Mondal PK, Chauhan B (2012) Microbial degradation of dye-containing wastewater. Microbial Degradation of Xenobiotics. Springer 317–338
Pang YL, Lim S, Ong HC et al (2016) Research progress on iron oxide-based magnetic materials: synthesis techniques and photocatalytic applications. Ceram Int 42(1):9–34
Kloster GA, Mosiewicki MA, Marcovich NE (2019) Chitosan/iron oxide nanocomposite films: Effect of the composition and preparation methods on the adsorption of congo red. Carbohyd Polym 221:186–194
Wang J, Yao J, Wang L et al (2020) Multivariate optimization of the pulse electrochemical oxidation for treating recalcitrant dye wastewater. Sep Purif Technol 230:115851
Dash S, Chaudhuri H, Udayabhanu G et al (2016) Fabrication of inexpensive polyethylenimine-functionalized fly ash for highly enhanced adsorption of both cationic and anionic toxic dyes from water. Energy Fuels 30(8):6646–6653
Haque E, Jun JW, Jhung SH (2011) Adsorptive removal of methyl orange and methylene blue from aqueous solution with a metal-organic framework material, iron terephthalate (MOF-235). Hazard Mater 185(1):507–511
Zhao S, Chen D, Wei F et al (2017) Removal of Congo red dye from aqueous solution with nickel-based metal-organic framework/graphene oxide composites prepared by ultrasonic wave-assisted ball milling. Ultrason Sonochem 39:845–852
Sonai GG, de Souza SMGU, de Oliveira D et al (2016) The application of textile sludge adsorbents for the removal of Reactive Red 2 dye. Environ Manag 168:149–156
Chen H, Wageh S, Al-Ghamdi AA et al (2019) Hierarchical C/NiO-ZnO nanocomposite fibers with enhanced adsorption capacity for Congo red. Colloid Interface Sci 537:736–745
Shah KH, Ghafoor A, Fahad M et al (2019) Natural ferruginous manganese ore as a potential low-cost adsorbent for Congo red dye removal from aqueous solution. Mater Res Express 6(12):125515
Chaudhuri H, Dash S, Sarkar A (2016) Adsorption of different dyes from aqueous solution using Si-MCM-41 having very high surface area. Porous Mater 23(5):1227–1237
Lei C, Pi M, Kuang P et al (2017) Organic dye removal from aqueous solutions by hierarchical calcined Ni-Fe layered double hydroxide: Isotherm, kinetic and mechanism studies. Colloid Interface Sci 496:158–166
Favier A, Charreyre MT (2006) Experimental requirements for an efficient control of free-radical polymerizations via the reversible addition-fragmentation chain transfer (RAFT) process. Macromol Rapid Commun 27(9):653–692
Liu H, Ning S, Li Z et al (2022) Preparation of a novel silica-based N-donor ligand functional adsorbent for efficient separation of palladium from high level liquid waste. Sep Purif Technol 296:121373
Tang J, Zhang Y-F, Liu Y et al (2020) Efficient ion-enhanced adsorption of congo red on polyacrolein from aqueous solution: Experiments, characterization and mechanism studies. Sep Purif Technol 252:117445
Tekin N, Şafaklı A, Bingöl D (2015) Process modeling and thermodynamics and kinetics evaluation of Basic Yellow 28 adsorption onto sepiolite. Desalin Water Treat 54(7):2023–2035
Xu X, Ouyang X-K, Yang L-Y (2021) Adsorption of Pb (II) from aqueous solutions using crosslinked carboxylated chitosan/carboxylated nanocellulose hydrogel beads. Mol Liquids 322:114523
Fan S, Wang Y, Wang Z et al (2017) Removal of methylene blue from aqueous solution by sewage sludge-derived biochar: Adsorption kinetics, equilibrium, thermodynamics and mechanism. Environ Chem Eng 5(1):601–611
Li M-F, Liu Y-G, Liu S-B et al (2017) Cu (II)-influenced adsorption of ciprofloxacin from aqueous solutions by magnetic graphene oxide/nitrilotriacetic acid nanocomposite: competition and enhancement mechanisms. Chem Eng 319:219–28
Yang S, Wu Y, Wu Y et al (2015) Optimizing decolorization of Acid Fuchsin and Acid Orange II solution by MnO2 loaded MCM-41. Taiwan Inst Chem Eng 50:205–214
Mukurala N, Mokurala K, Suman S et al (2021) Synthesis of porous Cu2FeSnS4 particles via solvothermal process for removal of organic acid fuchsin dye pollutant from wastewater. Nano-Struct Nano-Objects 26:100697
Feng M, Huang Y, Cheng Y et al (2018) Rational design of sulfonated poly (ether ether ketone) grafted graphene oxide-based composites for proton exchange membranes with enhanced performance. Polymer 144:7–17
Zhang B, Liu L, Wang L et al (2018) Covalent modification of graphene oxide with poly (N-vinylcarbazole) containing pendant azobenzene chromophores for nonvolatile ternary memories. Carbon 134:500–506
Renita AA, Kumar PS, Jabasingh SA (2019) Redemption of acid fuchsin dye from wastewater using de-oiled biomass: Kinetics and isotherm analysis. Bioresour Technol Rep 7:100300
Mukurala N, Mokurala K, Suman S et al (2021) Synthesis of porous Cu2FeSnS4 particles via solvothermal process for removal of organic acid fuchsin dye pollutant from wastewater. Nano-Struct Nano-Objects 26:100697
Kalkan E, Nadaroglu H, Celebi N et al (2015) Experimental study to remediate acid fuchsin dye using laccase-modified zeolite from aqueous Solutions. Environ Stud 24(1)
Li J, Gao Q, Ua Zhang H et al (2012) Effect of MWCNTs doping on the morphology, structure and properties of chitosan beads. Macromol Sci 49(8):674–9
Zhou Y, Hu X, Zhang M et al (2013) Preparation and characterization of modified cellulose for adsorption of Cd (II), Hg (II), and acid fuchsin from aqueous solutions. Ind Eng Chem Res 52(2):876–884
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This work was supported by Scientific Research Fund of Hunan Provincial Education Department (No. 21B0306), and Natural Science Foundation of Changsha (No. kq2202184).
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Wang, B., Wan, X., Liu, Z. et al. Synthesis of polyacrolein organic gel and its adsorption properties on acid fuchsin. J Polym Res 29, 483 (2022). https://doi.org/10.1007/s10965-022-03333-7
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DOI: https://doi.org/10.1007/s10965-022-03333-7