Production of materials LaMO3 (M= Mn, Fe, Co or Ni) and application as adsorbent for the removal of the turquoise blue dye
Produção de materiais LaMO3 (M= Mn, Fe, Co ou Ni) e aplicação como adsorvente para remoção do corante azul turquesa
Resumo
In this work, the effect of the type of metal in LaMO3-type materials (M = Mn, Fe, Co or Ni) prepared by the milling method was studied, in the phase formation and the use as an adsorbent for removal of turquoise blue dye. The results indicated that all materials obtained contain LaMO3 phase with perovskite structure as the main phase, presenting high thermal stability, besides pores and particles of different sizes and models. The pH of the zero load point values is close to 7.0, except for the material LaFeO3. The materials were applied as adsorbents in the removal of the turquoise blue dye in an aqueous solution, showing removal efficiency in the range of 51 to 97%, with a time of about 30 minutes to reach adsorption equilibrium. Kinetic studies showed that the experimental data fit better to the variable constants model.
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Referências
AGUEDAL, H.; IDDOU, A.; LOCS, J. Optimization of the Adsorption Process of Bezaktiv Turquoise Blue VG Textile Dye onto Diatomite Using the Taguchi Method. Key Eng. Mater. v.762, p. 81-86, 2018.
BOLARÍN, A.M.; SÁNCHEZ, F.; PONCE, A.; MARTÍNEZ, E.E. Mechanosynthesis of lanthanum manganite. Mater. Sci. Eng. A. v. 454, p.69-74, 2007.
CAO, G. Nanostructures and Nanomaterials, Synthesis, properties ans applications: Imperial College Press, London: 2004.
CONRADI, E.; GONÇALVES, A.C.; SCHWANTES, D.; MANFRIN, J.; SCHILLER, A.; ZIMMERMAN, J.; KLASSEN, G.J.; ZIEMER, G.L. Development of renewable adsorbent from cigarettes for lead removal from water. J. Environ. Chem. Eng. v.7, p. 103200, 2019.
CRISTÓBAL, A.A.; BOTTA, P.M.; BERCOFF, P.G.; LÓPEZ, J.M.P. Mechanosynthesis and magnetic properties of nanocrystalline LaFeO3 using different iron oxides. Mater. Res. Bull. v,44, p.036-1040, 2009.
DENG, H.; MAO, Z.; XU, H.; ZHANG, L.; ZHONG, Y.; SUI, X. Synthesis of fibrous LaFeO3 perovskite oxide for adsorption of Rhodamine B. Ecotoxicol. Environ. Saf. v.168, p. 35-44, 2019.
DOTTO, G.L.; PINTO, L.A.A. Adsorption of food dyes acid blue 9 and food yellow 3 onto chitosan: Stirring rate effect in kinetics and mechanism. J. Hazard. Mater. v.197, p. 164-170, 2011.
GALLEGO, J.; MONDRAGON, F.; BATIOT-DUPEYRAT, C. Simultaneous production of hydrogen and carbon nanostructured materials from ethanol over LaNiO3 and LaFeO3 perovskites as catalyst precursors. Appl. Catal. A. v.450, p. 73-79, 2013.
GARBA, Z.N.; ZHOU, W.; ZHANG, M; YUAN. Z. A review on the preparation, characterization and potential application of perovskites as adsorbents for wastewater treatment. Chemosphere v. 244, p. 125474, 2020.
GRABOWSKA, E. Selected perovskite oxides: Characterization, preparation and photocatalytic properties - A reviewAppl. Catal. B. v. 186, p. 97–126, 2016.
HOLKAR, C.R.; JADHAV, A.J.; PINJARI, D.V.; MAHAMUNI, N.M.A.B.A. J. A critical review on textile wastewater treatments: Possible approaches. Environ. Manage. v.182, p. 351-366, 2016.
JÚNIOR, E.M.O.; LEITE, J.O.; SANTOS, A.G.; SOUZA, M.J.B.; GARRIDO PEDROSA, A.M. Nickel-based perovskite catalysts: synthesis and catalytic tests in the production of syngas. Cerâmica v.64, p. 436-442, 2018.
LEMOS, J.A.S.; RIBEIRO, I.A.; SOUZA, M.J.B.; GARRIDO PEDROSA, A.M. Evaluation of the Properties of LaNiO3 Material Prepared by the Modified Proteic Method for Adsorption of Environmental Contaminants. J. Braz. Chem. Soc. v.34, p. 36-53, 2023.
LEMOS, J.A.S. Estudo da influência dos metais e do método de síntese de materiais com estrutura perovsquita nas propriedades adsortivas em meio líquido. Tese – Programa de Pós-Graduação em Química, Universidade Federal de Sergipe, 2022.
LYU, H.; GAO, B.; HE, F.; ZIMMERMAN, A.R.; DING, C.; HUANG, H.; TANG, J. Effects of ball milling on the physicochemical and sorptive properties of biochar: Experimental observations and governing mechanisms. Environ. Pollut. v.233, p. 54-63, 2018.
MACHADO, S.W.M.; SANTOS, C.D.; SOUZA, M.J.B.; GARRIDO PEDROSA, A.M. Estudo da remoção do corante têxtil turquesa de efluentes industriais utilizando peneiras moleculares zeolíticas sintéticas. Scientia Plena v.11, p. 077201, 2015.
MAHMOODI, N.M.; ARAMI, M. LIMAEE, N.Y.; GHARANJIG, K.; NOURMOHAMMADIAN, F. Nanophotocatalysis using immobilized titanium dioxide nanoparticle. Mater. Res. Bull. v. 42, p.797-806, 2007.
MAHMOODI, N.M.; KHORRAMFAR, S.; NAJAFI, F. Amine-functionalized silica nanoparticle: Preparation, characterization and anionic dye removal ability. Desalination v. 279, p. 61-68, 2011.
MAHMOUDI, F.; FARHADI, S.; MACHEK, P.; JAROSOVA, M. Phosphotungstic acid supported on silica-coated LaCoO3: Synthesis, characterization and application as a novel and efficient adsorbent for the removal of organic pollutants. Polyhedron v.158, p.423-431, 2019.
MANJUNATHAA, C.R.; NAGABHUSHANAA, B.M.; RAGHUB, M.S. PRATIBHAC, S.; DHANANJAYAC, N.; NARAYANA, A. Perovskite lanthanum aluminate nanoparticles applications in antimicrobial activity, . adsorptive removal of Direct Blue 53 dye and fluoride. Mater. Sci. Eng. C v. 101, p. 674-685, 2019.
MOHAJERSHOJAEI, K.; MAHMOODI, N.M.; KHOSRAVI, A. Immobilization of laccase enzyme onto titania nanoparticle and decolorization of dyes from single and binary systems. Biotechnology and Bioprocess Engineering v.20, p.109-116, 2015
MOURE, C.; PEÑA, O. Recent advances in perovskites: Processing and properties. Prog. Solid State Chem. v.43, p.123–148, 2015.
NASCIMENTO, É.V.; GARRIDO PEDROSA, A.M.; SOUZA, M.J.B. Development of LaxCa1-xMnO3 materials for Bezaktiv Blue removal in aqueous media. Water Sci Technol. v.83, p. 2793-2808, 2021.
NGAH, W.S.W.; TEONG, L.C.; HANAFIAH, M.A.K.M. Adsorption of dyes and hevy metal ions by chitosan composites: A review. Carbohydr. Polym. v.83, p. 1446-1456, 2011.
OVEISI, M.; ASLIA, M.A.; MAHMOODI, N.M. Carbon nanotube based metal-organic framework nanocomposites: Synthesis and their photocatalytic activity for decolorization of colored wastewater. Inorganica Chimica Acta v. 487, p. 169–176, 2019.
PALAS, B.; ERSOZ, G.; ATALAY, S. Catalytic wet air oxidation of Reactive Black 5 in the presence of LaNiO3 perovskite catalyst as a green process for azo dye removal. Chemosphere, v.209, p. 823-830, 2018.
PALAZON, F.; AJJOURI, Y.E.; BOLINK, H.J. Making by Grinding: Mechanochemistry Boosts the Development of Halide Perovskites and Other Multinary Metal Halides. Adv. Energy Mater. v.10, p.1902499, 2020.
PANAHI, P.N.; RASOULIFARD, M.H.; GHOLAMI, Z.; MOHAJER, S. Synthesis of modificated lanthanide nanoperovskites for photocatalytic removal of azo dyes under visible light irradiation. Int. J. Environ. Anal. Chem. p. 1-17, 2017.
RAMESH, K.; RAJAPPA, A.; NANDHAKUMAR, V. Z. Adsorption of Turquoise Blue Dye from Aqueous Solution using Microwave Assisted Zinc Chloride Activated Carbon Prepared from Delonix Regia Pods. Phys. Chem. v,231, p.1057–1076, 2017.
RIBEIRO, I.A.; LEMOS, J.A.S.; SOUZA, M.J.B.; GARRIDO PEDROSA, A.M. Synthesis of the LaCoO3, SrCoO3 and La0.7Sr0.3CoO3 materials by the modified proteic method and tests for use as adsorbent. Int. J. Mater. Res. v.113, 871–88, 2022.
SANTOS, A.G.; LEITE, J.O.; GIMENEZ, I.F.; SOUZA, M.J.B.; GARRIDO PEDROSA, A. M. Effect of the B-site cation from LaBO3 and LaBO3/TiO2 (B = Mn or Ni) perovskites prepared by mechanosynthesis in adsorption of Congo red dye from aqueous medium. Mater. Res. Express. v.6. p.105065, 2019.
SOUZA, A.A.; FERNANDES, J.B.R.; RIBEIRO, J.F.S.; SOUZA, M.J.B. GARRIDO PEDROSA, A.M. Development of LaMnO3 and LaNiO3 type materials with calcium doping by the modified proteic method and evaluation for the dye removal efficiency. Ceramica v.67, p. 406-413, 2021.
WANG, Y.; WANG, L.; ZHAO, Y.; YAN, D. Improved luminescence behavior in Er3+ doped KNbO3 perovskite structure ceramics. Ceram. Int. v.42, p. 17911–17915, 2016.
YAGUB, M.T.; SEN, T.K.; AFROZE, S.; ANG, H.M. Dye and its removal from aqueous solution by adsorption: A review. Adv. Colloid Interface Sci. v.209, p 172-184, 2014.
YOUNG, R.A. LARSON, A.C.; PAIVA-SANTOS, C.O. Program DBWS-9807A e Rietveld analysis of X-ray and nêutrons powder diffraction patterns, User’s Guide , 2000.
ZHANG, A.; LV, Q. Organic‐Inorganic Hybrid Perovskite Nanomaterials: Synthesis and Application. ChemistrySelect v.5, p.12641-12659, 2020.
