Efficient Adsorption of Cr(VI) from Aqueous Solutions Using Composites Modified with Ni/Al LDH and Keggin Type Compounds

Authors

  • Normah Normah Departement of Chemistry, Universitas Indo Global Mandiri, Palembang, 30129, Indonesia
  • Nurmalina Adhiyanti Departement of Chemistry, Universitas Indo Global Mandiri, Palembang, 30129, Indonesia
  • Rabellia Juladika Sayeri Research Center of Inorganic Materials and Coordination Complexes, Sriwijaya University, Palembang, 30139, Indonesia
  • Alfan Wijaya Research Center of Inorganic Materials and Coordination Complexes, Sriwijaya University, Palembang, 30139, Indonesia

DOI:

https://doi.org/10.26554/ijmr.20242228

Keywords:

Composite NiAl-LDH, Keggin Type Compound , Adsorption, Cr(VI)

Abstract

This study aims to synthesize the NiAl-LDH/K4[α-SiW12O40] composite using the coprecipitation method and evaluate its ability to adsorb Cr(VI) from aqueous solutions. The material characterization showed a significant increase in the specific surface area of the composite compared to pure NiAl-LDH, contributing to an enhanced Cr(VI) adsorption capacity. XRD and FT-IR results confirmed the successful synthesis and integration of K4[????-SiW12O40] into the NiAl-LDH structure. At the same time, BET analysis indicated that the specific surface area of the composite doubled compared to pure NiAl-LDH. The adsorption kinetics data indicated that the adsorption process followed the Pseudo-Second-Order (PSO) model with an R2 value close to 1, suggesting the dominance of chemisorption in the Cr(VI) adsorption mechanism. Isotherm analysis showed that the Freundlich model was more suitable than the Langmuir model, indicating that adsorption occurred on a heterogeneous surface with multilayer formation. The Cr(VI) adsorption capacity of the NiAl-LDH/K4[α-SiW12O40] composite reached 17.123 mg/g, higher than that of pure NiAl-LDH at 188.68 mg/g. The Cr(VI) adsorption process involved chemical interactions between Cr(VI) and functional groups on the adsorbent surface, complex formation, and precipitation.

References

Ahmad, N., A. Wijaya, F. S. Arsyad, I. Royani, and A. Lesbani (2024). Layered Double Hydroxide-Functionalized Humic Acid and Magnetite by Hydrothermal Synthesis for Optimized Adsorption of Malachite Green. Kuwait Journal of Science, 51(2); 100206.

Babapour, M., M. Hadi Dehghani, M. Alimohammadi, M. Moghadam Arjmand, M. Salari, L. Rasuli, N. M. Mubarak, and N. Ahmad Khan (2022). Adsorption of Cr(VI) from Aqueous Solution Using Mesoporous Metal-Organic Framework-5 Functionalized with the Amino Acids: Characterization, Optimization, Linear and Nonlinear Kinetic Models. Journal of Molecular Liquids, 345; 117835.

Bai, J., X. Zhang, G. Wang, X. Li, Z. Xu, C. Jing, T. Zhang, and Y. Jiang (2024). The Adsorption-Photocatalytic Synergism of LDHs-Based Nanocomposites on the Removal of Pollutants in Aqueous Environment: A Critical Review. Journal of Cleaner Production, 436; 140705.

Boccalon, E., G. Gorrasi, and M. Nocchetti (2020). Layered Double Hydroxides Are Still Out in the Bloom: Syntheses, Applications and Advantages of Three-Dimensional Flower-Like Structures. Advances in Colloid and Interface Science, 285; 102284.

Bouali, A. C., M. Serdechnova, C. Blawert, J. Tedim, M. G. S. Ferreira, and M. L. Zheludkevich (2020). Layered Double Hydroxides (LDHs) as Functional Materials for the Corrosion Protection of Aluminum Alloys: A Review. Applied Materials Today, 21; 100857.

Boulaiche, W., B. Hamdi, and M. Trari (2019). Removal of Heavy Metals by Chitin: Equilibrium, Kinetic and Thermodynamic Studies. Applied Water Science, 9(2); 1–10.

Cao, J., Z. Feng, H. Liang, X. Lu, and W. Wang (2023). Oriented Self-Assembly of Anisotropic Layered Double Hydroxides (LDHs) with 2D-on-3D Hierarchical Structure. Chemical Engineering Journal, 472; 144872.

Chen, M., H. Yuan, X. Qin, Y. Wang, H. Zheng, L. Yu, Y. Cai, Q. Liu, G. Liu, and W. Li (2024). Improve Corrosion Resistance of Steel Bars in Simulated Concrete Pore Solution by the Addition of EDTA Intercalated CaAl-LDH. Corrosion Science, 226; 111636.

Chen, X., M. F. Hossain, C. Duan, J. Lu, Y. F. Tsang, M. S. Islam, and Y. Zhou (2022). Isotherm Models for Adsorption of Heavy Metals from Water - A Review. Chemosphere, 307; 135545.

Daniel, M., G. Mathew, M. De, and N. Bernaurdshaw (2023). Facets Modulated LDH Composite for Neurotoxicity Risk Assessment through Direct Electrochemical Profiling of Dopamine. Chemosphere, 342; 140177.

Dar, B. A., A. Taher, A. Wani, and M. Farooqui (2013). Isotherms and Thermodynamic Studies on Adsorption of Copper on Powder of Shed Pods of Acacia nilotica. Journal of Environmental Chemistry and Ecotoxicology, 5(2); 17–20.

Daud, M., A. Hai, F. Banat, M. B. Wazir, M. Habib, G. Bharath, and M. A. Al-Harthi (2019). A Review on the Recent Advances, Challenges and Future Aspect of Layered Double Hydroxides (LDH)–Containing Hybrids as Promising Adsorbents for Dyes Removal. Journal of Molecular Liquids, 288; 110989.

Deng, Y., Q. Guan, L. He, J. Li, L. Peng, and J. Zhang (2021). The Photothermal Stability of CNFs/ZnAl LDHs Composited Films: Influence of the Crystal Morphology of ZnAl LDHs. Carbohydrate Polymers, 263; 117981.

Dhabab, J. M. (2011). Removal of Fe(II), Cu(II), Zn(II), and Pb(II) Ions from Aqueous Solutions by Duckweed. Journal of Oceanography and Marine Science, 2(January); 17–22.

Ding, G., C. Sun, M. Wang, G. Cheng, J. Liu, and Y. Hu (2024). Effect of Different Metal Ratios on the Synthesis, Morphology and Microwave Absorption Properties of DDM–RGO@Co1–xFex–LDH Porous Composites. Inorganic Chemistry Communications, 159; July 2023.

Elanchezhiyan, S. S. and S. Meenakshi (2017). Synthesis and Characterization of Chitosan/Mg-Al Layered Double Hydroxide Composite for the Removal of Oil Particles from Oil-in-Water Emulsion. International Journal of Biological Macromolecules, 104; 1586–1595.

Farhan, A., A. Khalid, N. Maqsood, S. Iftekhar, H. M. A. Sharif, F. Qi, M. Sillanpää, and M. B. Asif (2024). Progress in Layered Double Hydroxides (LDHs): Synthesis and Application in Adsorption, Catalysis and Photoreduction. Science of The Total Environment, 912; 169160.

Gu, Y., Z. Yang, J. Zhou, Q. Fang, X. Tan, and Q. Long (2024). Graphene/LDHs Hybrid Composites Synthesis and Application in Environmental Protection. Separation and Purification Technology, 328; 125042.

Hanifah, Y. and A. Amri (2023). Preparation of Layered Double Hydroxide-Polyoxometalate Based Composite. Indonesian Journal of Material Research, 1(2); 68–73.

Hu, X., W. Zheng, M. Wu, L. Chen, and S. Chen (2023). Composites of Metal-Organic Frameworks (MOFs) and LDHs for Energy Storage and Environmental Applications: Fundamentals, Progress, and Perspectives. Sustainable Materials and Technologies, 37; e00691.

Hung, D. Q., L. X. Dinh, N. Van Tung, L. T. M. Huong, N. T. Lien, P. T. Minh, and T. H. Le (2023). The Adsorption Kinetic and Isotherm Studies of Metal Ions (Co2+, Sr2+, Cs+) on Fe3O4 Nanoparticle of Radioactive Importance. Results in Chemistry, 6; 101095.

Jiang, Z., M. Wu, P. Gu, W. Huang, C.-P. Yu, Z. Zheng, Y. Wang, N. Yao, and Y. Li (2024). Layered Double Hydroxide@Zeolite Composite Modified Sponge: A Versatile Biocarrier for Enhancing Nitrogen Removal in Biofilters. Chemical Engineering Journal, 481; 148686.

Kumari, S., S. Soni, A. Sharma, S. Kumar, V. Sharma, V. S. Jaswal, S. K. Bhatia, and A. K. Sharma (2024). Layered Double Hydroxides Based Composite Materials and Their Applications in Food Packaging. Applied Clay Science, 247; 107216.

Latuconsina, H. (2010). Dampak Pemanasan Global Terhadap Ekosistem Pesisir dan Lautan. Agrikan: Jurnal Ilmiah Agribisnis Dan Perikanan, 3(1); 30 (in Indonesia).

Li, T., H. Miras, and Y.-F. Song (2017). Polyoxometalate (POM)-Layered Double Hydroxides (LDH) Composite Materials: Design and Catalytic Applications. Catalysts, 7(9); 260.

Miao, S., J. Guo, Z. Deng, J. Yu, and Y. Dai (2022). Adsorption and Reduction of Cr(VI) in Water by Iron-Based Metal-Organic Frameworks (Fe-MOFs) Composite Electrospun Nanofibrous Membranes. Journal of Cleaner Production, 370; 133566.

Mutahir, S., S. Akram, M. Asim Khan, H. Deng, A. M. Naglah, A. A. Almehizia, M. A. Al-Omar, F. Ibrahim Alrayes, and M. S. Refat (2024). Facile Synthesis of Zn/Co LDH for the Removal of Oxytetracycline from Wastewater: Experimental and DFT-Based Analysis. Chemical Engineering Science, 283; 119399.

Nasution, D. Y., A. H. Siregar, and E. Rokhmayanti (2024). Determination of Maximum Adsorption Capacity of Chitosan and Carboxymethyl Chitosan on the Absorption of Metal Ions Cr(VI) Based on the Langmuir Equation. JCNaR Journal of Chemical Natural Resources, 6(1); 30–38

Niatouri, A. D. and B. Yadollahi (2023). A Novel POM/LDH/GO Nanocomposite as Highly Efficient Heterogeneous Catalyst in Green Epoxidation of Alkenes with Hydrogen Peroxide. Catalysis Communications, 185; 106808

Nie, S., J. Wu, L. Wang, F. Cheng, Z. Sun, X. Chen, H. Liu, S. Wen, and C. Gong (2023). Hierarchical Fe3O4@LDH-Incorporated Composite Anion Exchange Membranes for Fuel Cells Based on Magnetic Field Orientation. Surfaces and Interfaces, 37; 102640

Normah, N. R. Palapa, T. Taher, R. Mohadi, H. P. Utami, and A. Lesbani (2021a). The Ability of Composite Ni / Al-Carbon Based Material Toward Readsorption of Iron(II) in Aqueous Solution. Science and Technology Indonesia, 6(3); 156–165

Normah, N. R. Palapa, T. Taher, R. Mohadi, H. P. Utami, and A. Lesbani (2021b). The Ability of Composite Ni/Al-Carbon Based Material Toward Readsorption of Iron(II) in Aqueous Solution. Science and Technology Indonesia, 6(3); 156–165

Palapa, N. R., T. Taher, A. Wijaya, and A. Lesbani (2021). Modification of Cu/cr Layered Double Hydroxide by Keggin Type Polyoxometalate As Adsorbent of Malachite Green from Aqueous Solution. Science and Technology Indonesia, 6(3); 209–217

Qian, J., Y. Zhang, Z. Chen, Y. Du, and B.-J. Ni (2023). NiCo Layered Double Hydroxides/NiFe Layered Double Hydroxides Composite (NiCo-LDH/NiFe-LDH) Towards Efficient Oxygen Evolution in Different Water Matrices. Chemosphere, 345; 140472

Setyawan, F., F. Dian, I. Sawali, M. A. Afandy, and M. Mustikaningrum (2024). Cr(VI) Removal from Aqueous Solution by Coagulation–Adsorption Integrated System. Indonesian Journal of Chemical Science, 13(1)

Silaen, L., Elfita, R. Mohadi, Normah, N. Juleanti, N. R. Palapa, and A. Lesbani (2021). Soft Ion Divalent Metals toward Adsorption on Zn/Al-POM Layered Double Hydroxide. Journal of Ecological Engineering, 22(10); 109–120

Singh, S., A. G. Anil, B. Uppara, S. K. Behera, B. Nath, N. Pavithra, S. Bhati, J. Singh, N. A. Khan, and P. C. Ramamurthy (2024). Adsorption and DFT Investigations of Cr(VI) Removal Using Nanocrystals Decorated with Graphene Oxide. Npj Clean Water, 7(1); 1–13

Siregar, P. M. S. B. N., A. Wijaya, Amri, J. P. Nduru, N. Hidayati, A. Lesbani, and R. Mohadi (2022). Layered Double Hydroxide/C (C = Humic Acid; Hydrochar) as Adsorbents of Cr(VI) Patimah. Science and Technology Indonesia, 7(1); 41–48

Taher, T., Z. Yu, E. K. A. Melati, A. Munandar, R. Aflaha, K. Triyana, Y. G. Wibowo, K. Khairurrijal, A. Lesbani, and A. Rianjanu (2024). Enabling Dual-Functionality Material for Effective Anionic and Cationic Dye Removal by Using Nb2O5/MgAl-LDH Nanocomposites. Journal of Hazardous Materials Letters, 5(October 2023); 100103

Wang, H., W. Wang, S. Zhou, and X. Gao (2023a). Adsorption Mechanism of Cr(VI) on Woody-Activated Carbons. Heliyon, 9(2); e13267

Wang, P., X. Zhang, B. Zhou, F. Meng, Y. Wang, and G. Wen (2023b). Recent Advance of Layered Double Hydroxides Materials: Structure, Properties, Synthesis, Modification and Applications of Wastewater Treatment. Journal of Environmental Chemical Engineering, 11(6); 111191

Wibiyan, S., I. Royani, and A. Lesbani (2024). Selective Adsorption of Cationic and Anionic Dyes Using Ni/Al Layered Double Hydroxide Modified with Eucheuma cottonii. Indonesian Journal of Material Research, 2(1); 1–6

Xu, Z., Y. Wu, Z. Zhang, Y. Wang, J. Hu, Y. Ma, Z. Zhang, H. Huang, J. Wei, C. Shi, and Q. Yu (2024). Insight into Ion Exchange Behavior of LDHs: Asynchronous Chloride Adsorption and Intercalated Ions Release Processes. Cement and Concrete Composites, 147; 105433

Yadav, B. S. and S. Dasgupta (2022). Effect of Time, pH, and Temperature on Kinetics for Adsorption of Methyl Orange Dye into the Modified Nitrate Intercalated MgAl LDH Adsorbent. Inorganic Chemistry Communications, 137; 109203

Yazid, H., T. Bouzid, E. M. El Mouchtari, L. Bahsis, M. El Himri, S. Rafqah, and M. El haddad (2024). Insights into the Adsorption of Cr(VI) on Activated Carbon Prepared from Walnut Shells: Combining Response Surface Methodology with Computational Calculation. Clean Technologies, 6(1); 199–220

Zarei, M., T. Ebadi, B. Ramavandi, and S. J. Peighambardoust (2023). Photocatalytic Decomposition of Methylene Blue and Methyl Orange Dyes Using Pistachio Biochar/CoFe2O4/Mn Fe LDH Composite as H2O2 Activator. Surfaces and Interfaces, 43; 103571

Zhao, X. J., S. M. Xu, P. Yin, J. Y. Guo, W. Zhang, Y. Jie, and H. Yan (2023). Theoretical Study on the Mechanism of Super-Stable Mineralization of LDHs in Soil Remediation. Chemical Engineering Journal, 451(P1); 138500

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Published

2024-07-26

Issue

Vol. 2 No. 2 (2024): July

Section

Articles