Preparation of C-based Magnetic Materials from Fruit Peel and Hydrochar using Snake Fruit (Salacca zalacca) Peel as Adsorbents for the Removal of Malachite Green Dye 10.32526/ennrj/21/202200192
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Abstract
In this study, fruit peel-based magnetic (M-Sp) and hydrochar-based magnetic (M-HSp) materials were successfully synthesized by hydrothermal and magnetization treatments. Characterization using X-ray diffraction, Fourier-transform infrared spectroscopy, vibrating sample magnetometry, and scanning electron microscopy-energy dispersive spectroscopy confirmed their successful synthesis. The materials were applied as adsorbents for the removal of malachite green (MG) dye. Equilibrium adsorption occurred at 90 min according to the PSO kinetic model, and the adsorption followed the Langmuir isotherm. The adsorption capacity of the materials was improved by the hydrothermal and magnetic treatments compared to that of the untreated initial material. The adsorption capacities of M-Sp and M-HSp were 69.444 and 88.889 mg/g, respectively. The M-Sp and M-HSp adsorbents could be reused for up to four regeneration cycles compared to the three cycles for the initial material. The adsorption mechanism of MG dye by the M-Sp and M-HSp adsorbents was suggested to occur via hydrogen bond, electrostatic, π-π, and physical interactions. The magnetic materials prepared in this study had a high adsorption capacity and adsorbent reusability, rendering them promising for use in dye removal and to facilitate separation between adsorbents and adsorbates.
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References
Alqadami AA, Khan MA, Siddiqui MR, Alothman ZA. Development of citric anhydride anchored mesoporous MOF through post synthesis modification to sequester potentially toxic lead (II) from water. Microporous and Mesoporous Materials 2018;261:198-206.
Amiri M, Salavati NM, Akbari A, Gholami T. Removal of malachite green (a toxic dye) from water by cobalt ferrite silica magnetic nanocomposite: Herbal and green sol-gel autocombustion synthesis. International Journal of Hydrogen Energy 2017;42(39):24846-60.
Azizah U, Fatimah I. Salacca zalacca skin and its modified form as biosorbents for Hg2+ removal from aqueous solution. Green Chemistry Letters and Reviews 2020;13(3):42-50.
Çatlıoğlu FN, Akay S, Gözmen B, Turunc E, Anastopoulos I, Kayan B, et al. Fe-modified hydrochar from orange peel as adsorbent of food colorant Brilliant Black: Process optimization and kinetic studies. International Journal of Environmental Science and Technology 2020;17(4):1975-90.
Chekalil N, Tarhini M, Elaissari A, Saïdi-Besbes S. Multi-step synthesis of core-shell magnetic nanoparticles bearing acid-chelating functional moieties. Research on Chemical Intermediates 2019;45(10):4847-61.
Cheng S, Zhao S, Xing B, Liu Y, Zhang C, Xia H. Preparation of magnetic adsorbent-photocatalyst composites for dye removal by synergistic effect of adsorption and photocatalysis. Journal of Cleaner Production 2022;348(3):Article No. 131301.
Cojocaru C, Samoila P, Pascariu P. Chitosan-based magnetic adsorbent for removal of water-soluble anionic dye: Artificial neural network modeling and molecular docking insights. International Journal of Biological Macromolecules 2019; 123:587-99.
Das P, Debnath P, Debnath A. Enhanced sono-assisted adsorptive uptake of malachite green dye onto magnesium ferrite nanoparticles: Kinetic, isotherm and cost analysis. Environmental Nanotechnology, Monitoring and Management 2021;16:Article No. 100506.
Dil AA, Vafaei A, Ghaedi AM, Ghaedi M, Dil EA. Multi-responses optimization of simultaneous adsorption of methylene blue and malachite green dyes in binary aqueous system onto Ni:FeO(OH)-NWs-AC using experimental design: Derivative spectrophotometry method. Applied Organometallic Chemistry 2018;32(3):1-13.
Gajera R, Vardhan R, Yadav A, Kumar P. Adsorption of cationic and anionic dyes on photocatalytic flyash/TiO2 modified chitosan biopolymer composite. Journal of Water Process Engineering 2022;49(7):Article No. 102993.
Haris M, Khan MW, Paz-Ferreiro J, Mahmood N, Eshtiaghi N. Synthesis of functional hydrochar from olive waste for simultaneous removal of azo and non-azo dyes from water. Chemical Engineering Journal Advances 2022;9:Article No. 100233.
Hasanah M, Wijaya A, Arsyad FS, Mohadi R, Lesbani A. Preparation of hydrochar from Salacca zalacca peels by hydrothermal carbonization: Study of adsorption on congo red dyes and regeneration ability. Science and Technology Indonesia 2022;7(3):372-8.
Karthi S, Sangeetha RK, Arumugam K, Karthika T, Vimala S. Removal of methylene blue dye using shrimp shell chitin from industrial effluents. Materials Today: Proceedings 2022; 5:Article No. 428.
Kaveh R, Bagherzadeh M. Simultaneous removal of mercury ions and cationic and anionic dyes from aqueous solution using epichlorohydrin cross-linked chitosan@magnetic Fe3O4/ activated carbon nanocomposite as an adsorbent. Diamond and Related Materials 2022;124(2):Article No. 108923.
Li W, Xu M, Cao Q, Luo J, Yang S, Zhao G. Magnetic GO/Fe3O4 for rapid malachite green (MG) removal from aqueous solutions: A reversible adsorption. RSC Advances 2021; 11(32):19387-94.
Ling C, Yimin D, Qi L, Chengqian F, Zhiheng W, Yaqi L, et al. Novel High-efficiency adsorbent consisting of magnetic cellulose-based ionic liquid for removal of anionic dyes. Journal of Molecular Liquids 2022;353:Article No. 118723.
Mohadi R, Normah N, Fitri ES, Palapa NR. Unique adsorption properties of cationic dyes malachite green and rhodamine-B on longan (Dimocarpus longan) peel. Science and Technology Indonesia 2022;7(1):115-25.
Mohammadi A, Daemi H, Barikani M. Fast removal of malachite green dye using novel superparamagnetic sodium alginate-coated Fe3O4 nanoparticles. International Journal of Biological Macromolecules 2014;69:447-55.
Patil MR, Shrivastava VS. Adsorption of malachite green by polyaniline-nickel ferrite magnetic nanocomposite: An isotherm and kinetic study. Applied Nanoscience (Switzerland) 2015;5(7):809-16.
Qiao Q, Zhou H, Guo F, Shu R, Liu S, Xu L, et al. Facile and scalable synthesis of mesoporous composite materials from coal gasification fine slag for enhanced adsorption of malachite green. Journal of Cleaner Production 2022; 22(110):Article No. 131932.
Rahmayanti A, Firdaus A, Tamyiz M, Hamidah LN, Oktavia L, Rosyidah E, et al. Synthesis and effectiveness of snake fruit (Salacca zalacca) seed charcoal bio-adsorbent in reducing remazol brilliant blue. IOP Conference Series: Earth and Environmental Science 2022;1030(1):Article No. 012016.
Sadegh N, Haddadi H, Arabkhani P, Asfaram A, Sadegh F. Simultaneous elimination of rhodamine B and malachite green dyes from the aqueous sample with magnetic reduced graphene oxide nanocomposite: Optimization using experimental design. Journal of Molecular Liquids 2021; 343:Article No. 117710.
Sadiq AC, Olasupo A, Rahim NY, Ngah WSW, Suah FBM. Comparative removal of malachite green dye from aqueous solution using deep eutectic solvents modified magnetic chitosan nanoparticles and modified protonated chitosan beads. Journal of Environmental Chemical Engineering 2021;9(5):Article No. 106281.
Sanad MMS, Farahat MM, Abdel KMA. One-step processing of low-cost and superb natural magnetic adsorbent: Kinetics and thermodynamics investigation for dye removal from textile wastewater. Advanced Powder Technology 2021;32(5):1573-83.
Venkatesan S, Ahmed H, Ali I, Rafique N. Evaluation of the production of hydrochar from spent coffee grounds under different operating conditions. Journal of Water Process Engineering 2022;49(7):Article No. 103037.
Vergis BR, Hari KR, Kottam N, Nagabhushana BM, Sharath R, Darukaprasad B. Removal of malachite green from aqueous solution by magnetic CuFe2O4 nano-adsorbent synthesized by one pot solution combustion method. Journal of Nanostructure in Chemistry 2018;8(1):1-12.
Wang Z, Ren D, Zhang X, Zhang S, Chen W. Adsorption-degradation of malachite green using alkali-modified biochar immobilized laccase under multi-methods. Advanced Powder Technology 2022;33(11):Article No. 103821.
Wu J, Yang J, Feng P, Wen L, Huang G, Xu C, et al. Highly efficient and ultra-rapid adsorption of malachite green by recyclable crab shell biochar. Journal of Industrial and Engineering Chemistry 2022;113:206-14.
Yvonne KS, Mahani Y, Razak W, Sofiyah MR, Razali MH. Properties of epoxy-hybrid composite using bamboo fiber and Salacca zalacca fruit skin powder. Materials Today: Proceedings 2018;5(10):21759-64.
Zadvarzi SB, Khavarpour M, Vahdat SM, Baghbanian SM, Rad AS. Synthesis of Fe3O4@chitosan@ZIF-8 towards removal of malachite green from aqueous solution: Theoretical and experimental studies. International Journal of Biological Macromolecules 2021;168:428-41.
Zheng H, Qi J, Jiang R, Gao Y, Li X. Adsorption of malachite green by magnetic litchi pericarps: A response surface methodology investigation. Journal of Environmental Management 2015;162:232-9.
Zubaidah E, Dewantari FJ, Novitasari FR, Srianta I, Blanc PJ. Potential of snake fruit (Salacca zalacca (Gaerth.) Voss) for the development of a beverage through fermentation with the Kombucha consortium. Biocatalysis and Agricultural Biotechnology 2018;13(9):198-203.