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Improving the selectivity of photocatalysis of LDH pristine (MgAl-LDH) and LDH composite (MgAl-SiW12O40] and MgAl-[PW12O40]) was synthesized and used for degraded malachite green (MG). The effects of the amount of catalyst, pH value, and reaction times on degradation performance were discussed. MG degraded better composites than LDH pristine. The results indicated that MgAl-LDH was successfully synthesized by showing the peak diffractions at angles 10.39°(003), 20.17°(006), and 34.8°(009). Both kinds of attained MgAl-[SiW12O40] and MgAl-[PW12O40] had the typical structure of LDH that proved by appeared diffraction at 2θ angles 7.73°, 28.6°, 35.6° for MgAl-[PW12O40] and at 2θ angles 8.61°, 24.27°, 34.96° and 66.34° for MgAl-[SiW12O40]. The FTIR result indicates materials used for fifth regeneration, which confirmed the LDH composite structure. The photodegradation activity of MG for pristine MgAl LDH (56.1%), composites MgAl-Pw (84.6%) and MgAl-Si (87.8%), respectively. The successful ability of photodegradation process by the percentage of degradation on material LDH-polyoxometalate composite showed the increasing of photodegradation catalytic and the regeneration ability of LDH pristine.
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109--119
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Bibliogr. 38 poz., rys., tab.
Twórcy
autor
- Graduate School of Mathematics and Natural Sciences, Faculty of Mathematics and Natural Sciences, Universitas Sriwijaya, Jl. Palembang Prabumulih Km. 32, OganIlir 30662, Indonesia
autor
- Graduate School of Mathematics and Natural Sciences, Faculty of Mathematics and Natural Sciences, Universitas Sriwijaya, Jl. Palembang Prabumulih Km. 32, OganIlir 30662, Indonesia
- Research Center of Inorganic Materials and Coordination Complexes, Faculty of Mathematics and Natural Sciences, Universitas Sriwijaya, Jl. Palembang Prabumulih Km. 32, OganIlir 30662, Indonesia
autor
- Department of Pharmacy, Faculty of Mathematics and Natural Sciences, Universitas Sriwijaya, Jl. Palembang Prabumulih Km. 32, OganIlir 30662, Indonesia
autor
- Graduate School of Mathematics and Natural Sciences, Faculty of Mathematics and Natural Sciences, Universitas Sriwijaya, Jl. Palembang Prabumulih Km. 32, OganIlir 30662, Indonesia
- Research Center of Inorganic Materials and Coordination Complexes, Faculty of Mathematics and Natural Sciences, Universitas Sriwijaya, Jl. Palembang Prabumulih Km. 32, OganIlir 30662, Indonesia
Bibliografia
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- 2. Amini, M., Khaksar, M., Ellern, A., Keith Woo, L. 2018. A new nanocluster polyoxomolybdate [Mo36O110(NO)4(H2O)14]·52H2O: Synthesis, characterization and application in oxidative degradation of common organic dyes. Chinese Journal of Chemical Engineering, 26, 337–342.
- 3. Asiltürk, M., Sayılkan, F. 2009. Effect of Fe3+ ion doping to TiO2 on the photocatalytic degradation of Malachite Green dye under UV and vis-irradiation. Journal of Photochemistry and Photobiology A: Chemistry, 203, 64–71.
- 4. Behbahani, E.S., Dashtian, K., Ghaedi, M. 2019. Fe/Co-chalcogenide-stabilized Fe3O4 nanoparticles supported MgAl-layered double hydroxide as a new magnetically separable sorbent for the simultaneous spectrophotometric determination of anionic dyes. Microchemical Journal, 104431.
- 5. Burakov, A.E., Galunin, E. V, Burakova, I. V, Kucherova, A.E., Agarwal, S., Tkachev, A.G., Gupta, V.K. 2018. Ecotoxicology and Environmental Safety Adsorption of heavy metals on conventional and nanostructured materials for wastewater treatment purposes: A review. Ecotoxicology and Environmental Safety, 148, 702–712.
- 6. Fernandes, A.J.S., Sodr, W.C., Bezerra, B., Rojas, A., Perez-carvajal, J., Alc, A.C.S. 2021. In situ assembling of layered double hydroxide to magadiite layered silicate with enhanced photocatalytic and recycling performance. Applied Surface Science, 569, 151007.
- 7. Gholami, P., Khataee, A., Darvishi, R., Soltani, C., Dinpazhoh, L. 2020. Photocatalytic degradation of gemi fl oxacin antibiotic using Zn-Co-LDH @biochar nanocomposite. Journal of Hazardous Materials, 382, 121070.
- 8. Guo, X., Fan, Z., Wang, Y., Jin, Z. 2021. CeO2 nanoparticles dispersed on CoAl-LDH hexagonal nanosheets as 0D/2D binary composite for enhanced photocatalytic hydrogen evolution. Surfaces and Interfaces, 24, 101105.
- 9. Gupta, A., Pandey, O.P. 2018. Visible irradiation induced photodegradation by NbC/C nanocomposite derived from smoked cigarette litter (filters). SolarEnergy, 163, 167–176.
- 10. Hadnadjev-Kostic, M., Vulic, T., Marinkovic-Neducin, R., Lončarević, D., Dostanić, J., Markov, S., Jovanović, D. 2017. Photo-induced properties of photocatalysts: A study on the modified structural, optical and textural properties of TiO2–ZnAl layered double hydroxide based materials. Journal of Cleaner Production, 164, 1–18.
- 11. Hanifah, Y., Mohadi, R., Mardiyanto, M., Lesbani, A. 2022. Photocatalytic Degradation pf Malachite Green by NiAl-LDH Intercalated Polyoxometalate Compound. Bulletin of Chemical Reaction Engineering & Catalytic, 17.
- 12. Haris, M., Khan, M.W., Paz-Ferreiro, J., Mahmood, N., Eshtiaghi, N. 2022. Synthesis of functional hydrochar from olive waste for simultaneous removal of azo and non-azo dyes from water. Chemical Engineering Journal Advances, 9, 100233.
- 13. Jo, W.K., Kim, Y.G., Tonda, S. 2018. Hierarchical flower-like NiAl-layered double hydroxide microspheres encapsulated with black Cu-doped TiO2 nanoparticles: Highly efficient visible-light-driven composite photocatalysts for environmental remediation. Journal of Hazardous Materials, 357, 19–29.
- 14. Juleanti, N., Palapa, N.R., Taher, T., Hidayati, N., Putri, B.I., Lesbani, A. 2021. The capability of biochar-based CaAl and MgAl composite materials as adsorbent for removal Cr(VI) in aqueous solution. Science and Technology Indonesia, 6, 196–203.
- 15. Kaul, P.K., Samson, A.J., Selvan, G.T., Enoch, I., Selvakumar, P.M. 2016. Synergistic effect of LDH in the presence of organophosphate on thermal and fl ammable properties of an epoxy nanocomposite. Applied Clay Science, 135, 234–243.
- 16. Lesbani, A., Mohadi, R. 2014. Brönsted acid of Keggin type polyoxometalate catalyzed pinacol rearrangement. Bulletin of Chemical Reaction Engineering and Catalysis, 9, 136–141.
- 17. Li, Q., Kang, Z., Mao, B., Wang, E., Wang, C., Tian, C., Li, S. 2008. One-step polyoxometalate-assisted solvothermal synthesis of ZnO microspheres and their photoluminescence properties. Materials Letters, 62, 2531–2534.
- 18. Liu, X., Lu, J., Fu, M., Zheng, H., Chen, Q. 2022. Activated carbon induced hydrothermal carbonization for the treatment of cotton pulp black liquor. Journal of Water Process Engineering, 47, 102733.
- 19. Lu, Y., Jiang, B., Fang, L., Ling, F., Gao, J., Wu, F. 2016. Chemosphere High performance NiFe layered double hydroxide for methyl orange dye and Cr (VI) adsorption. Chemosphere, 152, 415–422.
- 20. Lv, X., Qin, X., Wang, K., Peng, Y., Wang, P., Jiang, G. 2019. Nanoscale zero valent iron supported on MgAl-LDH-decorated reduced graphene oxide: Enhanced performance in Cr(VI) removal, mechanism and regeneration. Journal of Hazardous Materials, 373, 176–186.
- 21. Magdy, A., Abukhadra, M.R., Ahmed, S.A., Elzanaty, A.M., Mady, A.H., Betiha, M.A., Shim, J., Rabie, A.M. 2020. Photocatalytic degradation of malachite green dye using chitosan supported ZnO and Ce – ZnO nano-flowers under visible light. Journal of Environmental Management, 258, 110043.
- 22. Malherbe, F., Besse, J.P. 2000. Investigating the effects of guest-host interactions on the properties of anion-exchanged Mg-Al hydrotalcites. Journal of Solid State Chemistry, 155, 332–341.
- 23. Mohammed, N.A.S., Abu-Zurayk, R.A., Hamadneh, I., Al-Dujaili, A.H. 2018. Phenol adsorption on biochar prepared from the pine fruit shells: Equilibrium, kinetic and thermodynamics studies. Journal of Environmental Management, 226, 377–385.
- 24. Mohapatra, L., Parida, K.M. 2012. Zn-Cr layered double hydroxide: Visible light responsive photocatalyst for photocatalytic degradation of organic pollutants. Separation and Purification Technology, 91, 73–80.
- 25. Nayak, S., Parida, K.M. 2016. Nanostructured CeO2/MgAl-LDH composite for visible light induced water reduction reaction. International Journal of Hydrogen Energy, 41, 21166–21180.
- 26. Pathania, D., Katwal, R., Sharma, G., Naushad, M., Khan, M.R., Al-muhtaseb, A.H. 2016. Novel guar gum/Al2O3 nanocomposite as an effective photocatalyst for the degradation of malachite green dye. International Journal of Biological Macromolecules, 87, 366–374.
- 27. Salamat, S., Hadavifar, M., Rezaei, H. 2019. Journal of Environmental Chemical Engineering Preparation of nanochitosan-STP from shrimp shell and its application in removing of malachite green from aqueous solutions. Journal of Environmental Chemical Engineering, 7, 103328.
- 28. Shi, W., Ren, H., Huang, X., Li, M., Tang, Y., Guo, F. 2020. Separation and Puri fi cation Technology Low cost red mud modi fi ed graphitic carbon nitride for the removal of organic pollutants in wastewater by the synergistic effect of adsorption and photocatalysis. Separation and Purification Technology, 237, 116477.
- 29. Sun, Y., Wang, L., Wang, T., Liu, X., Xu, T., Wei, M., Yang, L., Li, C. 2021. Improved photocatalytic activity of Ni 2 P/ NiCo-LDH composites via a Co e P bond charge transfer channel to degrade tetracycline under visible light. Journal of Alloys and Compounds, 852, 156963.
- 30. Sun, X., Dong, J., Li, Z., Liu, H., Jing, X., Chi, Y., Hu, C. 2019. Mono-transition-metal-substituted polyoxometalate intercalated layered double hydroxides for the catalytic decontamination of sulfur mustard simulant. Dalton Transactions, 48, 5285–5291.
- 31. Wang, J.A., Chen, L.F., Noreña, L.E. 2008. Al-MCM-41 and Pt / H3PW12O40 / Al-MCM-41: structure characterization and catalytic properties. Studies in Surface Science and Catalysis, 174, 1259–1262.
- 32. Yin, Q., Wang, R., Zhao, Z. 2018. Application of Mg–Al-modified biochar for simultaneous removal of ammonium, nitrate, and phosphate from eutrophic water. Journal of Cleaner Production, 176, 230–240.
- 33. Yoshida, M., Koilraj, P., Qiu, X., Hirajima, T., Sasaki, K. 2015. Sorption of arsenate on MgAl and MgFe layered double hydroxides derived from calcined dolomite. Elsevier BV.
- 34. Yong, L., Zhanqi, G., Yuefei, J., Xiaobin, H., Cheng, S., Shaogui, Y. 2015. Photodegradation of malachite green under simulated and natural irradiation: Kinetics, products, and pathways. Journal of Hazardous Materials, 285, 127–136.
- 35. Yuliasari, N., Wijaya, A., Amri, A., Mohadi, R., Elfita, E., Lesbani, A. 2022. Application of M2+ (Magnesium, Zinc)/Alumina-Metal Oxide Composites as Photocatalysts for the Degradation of Cationic Dyes. Ecological Engineering & Environmental Technology, 23, 125–135.
- 36. Zhang, S., Yan, Y., Wang, W., Gu, X., Li, H., Li, J. 2017. Intercalation of phosphotungstic acid into layered double hydroxides by reconstruction method and its application in intumescent flame retardant poly (lactic acid) composites Intercalation of phosphotungstic acid into layered double hydroxides by recons. Polymer Degradation and Stability, 147, 142–150.
- 37. Zhou, H., Wu, F., Fang, L., Hu, J., Luo, H. 2020. Layered NiFe-LDH/MXene nanocomposite electrode for high-performance supercapacitor. International Journal of Hydrogen Energy, 45, 13080–13089.
- 38. Prado, A.G.S., Costa, L.L. 2009. Photocatalytic decouloration of malachite green dye by application of TiO 2 nanotubes. Journal of Hazardous Materials, 169, 297–301.
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-1e8ce9dc-3303-4e27-a6fe-29b8070cbc56