EFFECT OF CALCINATION TEMPERATURE ON THE ADSORPTION PERFORMANCE OF MG/AL LAYERED DOUBLE HYDROXIDE NANOPARTICLES IN THE REMOVAL OF MEROPENEM ANTIBIOTICS

Authors

  • Yaseen Rashid Hasan
  • Mohammed Ali A. Shaban
  • Mohammed A. Ibrahim
  • Mohanad J. M-Ridha
  • Haitham A. Hussein

DOI:

https://doi.org/10.36103/ijas.v54i1.1675

Keywords:

Meropenem, Adsorption, Sunflower husks, Layered double hydroxides, Calcination Temperature.

Abstract

Meropenem (MER) antibiotic is removed from an aqueous solution using Mg-Al-layered double hydroxide (Mg/Al-LDHs) which serves to functionalize the principal object of enquiry in this paper–sunflower husks (SFH).  The former sample demonstrated a 51% removal of MER while the latter demonstrated a 67% removal of MER. One of the areas explored was the impact of the rise calcination temperatures resulted in a concurrent increase in the surface area and porosity of LDHs which, in turn, provoked a heightened removal efficacy of MER at calcination temperatures between 300 °C and 350 °C. Nonetheless, LDHs experienced structural deformation and thus, diminished removal efficacy of MER when the calcination temperature was over 350 °C. The ideal adsorption conditions were determined via the undertaking of multiple batch studies. Adsorption process was implemented successfully with removal efficiency of 98% under optimal conditions. The adsorption of MER was found to be regulated by the chemisorption mechanism of the best suited second order kinetic model. The adsorption process seemed to be heterogeneous and on a multi-layer as suggested by the high determination coefficient with Freundlich model. Enhanced functional and structural properties were witnessed in this novel adsorbent’s adsorption capacity, thereby highlighting its proficiency as an alternative.

References

Abd, I. N. and M. J. Mohammed-Ridha. 2021a. Simultaneous adsorption of tetracycline and amoxicillin by cladophora and spirulina algae biomass. Iraqi J. Agric. Sci. 52: 1290–1303

Abd, I. N. and M. J. Mohammed-Ridha. 2021b. Tetracycline antibiotic removal from aqueous solution using cladophora and spirulina algae biomass. Iraqi J. Agric. Sci. 52: 336–347

Abdulhussein, S. A. and A. I. Al wared. 2019. Single and Binary Adsorption of Cu(II) and Ni(II) Ions from Aqueous Solutions by Sunflower Seed Husk. Assoc. Arab Univ. J. Eng. Sci. 26: 35–43

Ahmed, M. J. and S. K. Theydan. 2014. Fluoroquinolones antibiotics adsorption onto microporous activated carbon from lignocellulosic biomass by microwave pyrolysis. J. Taiwan Inst. Chem. Eng. 45: 219–226. Taiwan Institute of Chemical Engineers

Ajmal, M., R. Ali Khan Rao, S. Anwar, J. Ahmad and R. Ahmad. 2003. Adsorption studies on rice husk: Removal and recovery of Cd(II) from wastewater. Bioresour. Technol. 86: 147–149

Akar, S. T., A. Gorgulu, Z. Kaynak, B. Anilan and T. Akar. 2009. Biosorption of Reactive Blue 49 dye under batch and continuous mode using a mixed biosorbent of macro-fungus Agaricus bisporus and Thuja orientalis cones. Chem. Eng. J. 148: 26–34

Akar, T. and S. Tunali. 2005. Biosorption performance of Botrytis cinerea fungal by-products for removal of Cd(II) and Cu(II) ions from aqueous solutions. Miner. Eng. 18: 1099–1109

Al-Hemiri, A. A., K. M. Abed and A. W. Al-Shahwany. 2012. Extraction of Pelletierine from Punica granatum L.by Liquid Membrane Technique and Modelling. Iraqi J. Chem. Pet. Eng. 13: 1–9

Alsager, O. A., M. N. Alnajrani, H. A. Abuelizz and I. A. Aldaghmani. 2018. Removal of antibiotics from water and waste milk by ozonation: kinetics, byproducts, and antimicrobial activity. Ecotoxicol. Environ. Saf. 158: 114–122. Elsevier Inc

Auer, S. M., R. Wandeler, U. Göbel and A. Baiker. 1997. Heterogeneous coupling of phenylethyne over Cu-Mg-Al mixed oxides: Influence of catalyst composition and calcination temperature on structural and catalytic properties. J. Catal. 169: 1–12

Bajpai, S., M. Bajpai and N. Rai. 2012. Sorptive removal of ciprofloxacin hydrochloride from simulated wastewater using sawdust: Kinetic study and effect of pH. Water SA 38: 673–682

Basile, F., L. Basini, M. D’Amore, G. Fornasari, A. Guarinoni, D. Matteuzzi, G. Del Piero, F. Trifirò and A. Vaccari. 1998. Ni/Mg/Al anionic clay derived catalysts for the catalytic partial oxidation of methane: Residence time dependence of the reactivity features. J. Catal. 173: 247–256

Chen, J., Y. Wang, Y. Qian and T. Huang. 2017. Fe(III)-promoted transformation of Β-lactam antibiotics: Hydrolysis vs oxidation. J. Hazard. Mater. 335: 117–124. Elsevier B.V

Darweesh, T. M. and M. J. Ahmed. 2017. Batch and fixed bed adsorption of levofloxacin on granular activated carbon from date ( Phoenix dactylifera L.) stones by KOH chemical activation. Environ. Toxicol. Pharmacol. 50: 159–166. Elsevier B.V

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. J. Mol. Liq. 288: 110989. Elsevier B.V

Dizge, N., C. Aydiner, E. Demirbas, M. Kobya and S. Kara. 2008. Adsorption of reactive dyes from aqueous solutions by fly ash: kinetic and equilibrium studies. J. Hazard. Mater. 150: 737–746. Elsevier

Elmolla, E. S. and M. Chaudhuri. 2011. The feasibility of using combined TiO2 photocatalysis-SBR process for antibiotic wastewater treatment. Desalination 272: 218–224. Elsevier B.V

Elmoubarki, R., F. Z. Mahjoubi, A. Elhalil, H. Tounsadi, M. Abdennouri, M. Sadiq, S. Qourzal, A. Zouhri and N. Barka. 2017. Ni/Fe and Mg/Fe layered double hydroxides and their calcined derivatives: Preparation, characterization and application on textile dyes removal. J. Mater. Res. Technol. 6: 271–283. Brazilian Metallurgical, Materials and Mining Association

Gao, Y., Y. Li, L. Zhang, H. Huang, J. Hu, S. M. Shah and X. Su. 2012. Adsorption and removal of tetracycline antibiotics from aqueous solution by graphene oxide. J. Colloid Interface Sci. 368: 540–546. Elsevier Inc

Girardi, C., J. Greve, M. Lamshöft, I. Fetzer, A. Miltner, A. Schäffer and M. Kästner. 2011. Biodegradation of ciprofloxacin in water and soil and its effects on the microbial communities. J. Hazard. Mater. 198: 22–30. Elsevier

Islam, M. and R. Patel. 2010. Synthesis and physicochemical characterization of Zn/Al chloride layered double hydroxide and evaluation of its nitrate removal efficiency. Desalination 256: 120–128. Elsevier B.V

Ji, L., W. Chen, L. Duan and D. Zhu. 2009. Mechanisms for strong adsorption of tetracycline to carbon nanotubes: A comparative study using activated carbon and graphite as adsorbents. Environ. Sci. Technol. 43: 2322–2327. ACS Publications

Jin, T., W. Yuan, Y. Xue, H. Wei, C. Zhang and K. Li. 2017. Co-modified MCM-41 as an effective adsorbent for levofloxacin removal from aqueous solution: optimization of process parameters, isotherm, and thermodynamic studies. Environ. Sci. Pollut. Res. 24: 5238–5248. Environmental Science and Pollution Research

Khodadadi, M., T. J. Al-Musawi, M. Kamranifar, M. H. Saghi and A. H. Panahi. 2019. A comparative study of using barberry stem powder and ash as adsorbents for adsorption of humic acid. Environ. Sci. Pollut. Res. 26: 26159–26169. Springer

Koyuncu, I., O. A. Arikan, M. R. Wiesner and C. Rice. 2008. Removal of hormones and antibiotics by nanofiltration membranes. J. Memb. Sci. 309: 94–101

Li, B. and T. Zhang. 2013. Different removal behaviours of multiple trace antibiotics inmunicipal wastewater chlorination. Water Res. 47: 2970–2982. Elsevier Ltd

Li, G., D. Zhang, M. Wang, J. Huang and L. Huang. 2013. Preparation of activated carbons from Iris tectorum employing ferric nitrate as dopant for removal of tetracycline from aqueous solutions. Ecotoxicol. Environ. Saf. 98: 273–282. Elsevier

Liu, H., W. Ning, P. Cheng, J. Zhang, Y. Wang and C. Zhang. 2013. Evaluation of animal hairs-based activated carbon for sorption of norfloxacin and acetaminophen by comparing with cattail fiber-based activated carbon. J. Anal. Appl. Pyrolysis 101: 156–165. Elsevier B.V

Liu, Y., C. Dong, H. Wei, W. Yuan and K. Li. 2015. Adsorption of levofloxacin onto an iron-pillared montmorillonite (clay mineral): Kinetics, equilibrium and mechanism. Appl. Clay Sci. 118: 301–307. Elsevier B.V

Luo, Y., L. Xu, M. Rysz, Y. Wang, H. Zhang and P. J. J. Alvarez. 2011. Occurrence and transport of tetracycline, sulfonamide, quinolone, and macrolide antibiotics in the Haihe River Basin, China. Environ. Sci. Technol. 45: 1827–1833. ACS Publications

Mohammed -Ridha, M. J., Y. R. Hasan and M. A. Ibrahim. 2021a. Adsorption kinetics and mechanisms for meropenem antibiotic removal in batch mode via rice husk functionalized with Mg/Fe-layered double hydroxides. Sep. Sci. Technol. 56: 2721–2733. Taylor & Francis

Mohammed -Ridha, M. J., S. L. Zeki, S. J. Mohammed, K. M. Abed and H. A. Hasan. 2021b. Heavy Metals Removal from Simulated Wastewater using Horizontal Subsurface Constructed Wetland. J. Ecol. Eng. 22: 243–250. Polish Society of Ecological Engineering (PTIE).

Mahmoud, M. E., A. M. El-Ghanam, R. H. A. Mohamed and S. R. Saad. 2020. Enhanced adsorption of Levofloxacin and Ceftriaxone antibiotics from water by assembled composite of nanotitanium oxide/chitosan/nano-bentonite. Mater. Sci. Eng. C 108: 110199. Elsevier B.V

Mohammed-Ridha, M. J., A. S. Ahmed and N. N. Raoof. 2017. Investigation of the thermodynamic, kinetic and equilibrium parameters of batch biosorption of Pb (II), Cu (II), and Ni (II) from aqueous phase using low cost biosorbent. Al-Nahrain J. Eng. Sci. 20: 298–310

Mohammed-Ridha Muna Y Abdul-Ahad. 2014. Adsorption of Levofloxacine Antibacterial from Contaminated Water by Non-Conventional Low Cost Natural Waste Materials. J. Eng. 20: 88–104

Mohammed, A. A., T. J. Al-Musawi, S. L. Kareem, M. Zarrabi and A. M. Al-Ma’abreh. 2020. Simultaneous adsorption of tetracycline, amoxicillin, and ciprofloxacin by pistachio shell powder coated with zinc oxide nanoparticles. Arab. J. Chem. 13: 4629–4643.

Mohammed, S. J., M. J. M-Ridha, K. M. Abed and A. A. M. Elgharbawy. 2021. Removal of levofloxacin and ciprofloxacin from aqueous solutions and an economic evaluation using the electrocoagulation process‏. Int. J. Environ. Anal. Chem. 1–19. Taylor & Francis

Mohammed, S. J., M. J. M-Ridha. 2021. Optimization of levofloxacin removal from aqueous solution using electrocoagulation process by response surface methodology. Iraqi J. Agric. Sci. 52: 204–217

Namasivayam, C., R. Radhika and S. Suba. 2001. Uptake of dyes by a promising locally available agricultural solid waste: coir pith. Waste Manag. 21: 381–387. Elsevier

Nikolaou, A., S. Meric and D. Fatta. 2007. Occurrence patterns of pharmaceuticals in water and wastewater environments. Anal. Bioanal. Chem. 387: 1225–1234

Omo-Okoro, P. N., A. P. Daso and J. O. Okonkwo. 2018. A review of the application of agricultural wastes as precursor materials for the adsorption of per- and polyfluoroalkyl substances: A focus on current approaches and methodologies. Environ. Technol. Innov. 9: 100–114. Elsevier B.V

Ong, S. T., P. S. Keng, S. L. Lee, M. H. Leong and Y. T. Hung. 2010. Equilibrium studies for the removal of basic dye by sunflower seed husk (Helianthus annuus). Int. J. Phys. Sci. 5: 1270–1276

Palmisano, R. and L. Campanella. 2015. Photo-Degradation of Amoxicillin, Streptomycin, Erythromycin and Ciprofloxacin by UV and UV/TiO2 Processes. Evaluation of Toxicity Changes Using a Respirometric Biosensor. J. Environ. Anal. Chem. 02

Pouretedal, H. R. and N. Sadegh. 2014. Effective removal of Amoxicillin, Cephalexin, Tetracycline and Penicillin G from aqueous solutions using activated carbon nanoparticles prepared from vine wood. J. Water Process Eng. 1: 64–73. Elsevier Ltd

Rahmani, A. R., D. Nematollahi, M. R. Samarghandi, M. T. Samadi and G. Azarian. 2018. A combined advanced oxidation process: Electrooxidation-ozonation for antibiotic ciprofloxacin removal from aqueous solution. J. Electroanal. Chem. 808: 82–89. Elsevier

Saleh, M. E., A. A. El-Refaey and A. H. Mahmoud. 2016. Effectiveness of Sunflower Seed Husk Biochar for Removing Copper Ions from Wastewater: A Comparative Study. Soil Water Res. 11: 53–63

Shaban, M. A. A., M. A. Ibrahim, M. J. M-Ridha and H. A. Hussein. 2020a. Adsorption of meropenem antibiotics from aqueous solutions on multi-walled carbon nanotube. Int. Rev. Civ. Eng. 11: 283–293

Shankaraiah, G., S. Poodari, D. Bhagawan, V. Himabindu and S. Vidyavathi. 2016. Degradation of antibiotic norfloxacin in aqueous solution using advanced oxidation processes (AOPs)—A comparative study. Desalin. Water Treat. 57: 27804–27815

Soldatkina, L. M., E. V. Sagaidak and V. V. Menchuk. 2009. Adsorption of cationic dyes from aqueous solutions on sunflower husk. J. Water Chem. Technol. 31: 238–243

Tahir, H. 2005. Comparative trace metal contents in sediments and liquid wastes from tanneries and the removal of chromium using Zeolite-5A. Electron. J. Environ. Agric. Food Chem. 4: 1021–1032

Tan, X., S. Liu, Y. Liu, Y. Gu, G. Zeng, X. Cai, Z. L. Yan, C. Yang, X. Hu and B. Chen. 2016. One-pot synthesis of carbon supported calcined-Mg/Al layered double hydroxides for antibiotic removal by slow pyrolysis of biomass waste. Sci. Rep. 6: 1–12. Nature Publishing Group

Tang, Y., H. Guo, L. Xiao, S. Yu, N. Gao and Y. Wang. 2013. Synthesis of reduced graphene oxide/magnetite composites and investigation of their adsorption performance of fluoroquinolone antibiotics. Colloids Surfaces A Physicochem. Eng. Asp. 424: 74–80. Elsevier B.V

Uzun, I. 2006. Kinetics of the adsorption of reactive dyes by chitosan. Dye. Pigment. 70: 76–83. Elsevier

Vaccari, A. 1998. Preparation and catalytic properties of cationic and anionic clays. Catal. Today 41: 53–71

Wang, J., B. Gao, M. Dou, X. Huang and Z. Ma. 2020. A porous g-C3N4 nanosheets containing nitrogen defects for enhanced photocatalytic removal meropenem: Mechanism, degradation pathway and DFT calculation. Environ. Res. 184: 109339. Elsevier Inc

Xiao, Y., H. Chang, A. Jia and J. Hu. 2008. Trace analysis of quinolone and fluoroquinolone antibiotics from wastewaters by liquid chromatography–electrospray tandem mass spectrometry. J. Chromatogr. A 1214: 100–108

Xue, L., B. Gao, Y. Wan, J. Fang, S. Wang, Y. Li, R. Muñoz-Carpena and L. Yang. 2016. High efficiency and selectivity of MgFe-LDH modified wheat-straw biochar in the removal of nitrate from aqueous solutions. J. Taiwan Inst. Chem. Eng. 63: 312–317. Elsevier B.V

Yi, S., B. Gao, Y. Sun, J. Wu, X. Shi, B. Wu and X. Hu. 2016. Removal of levofloxacin from aqueous solution using rice-husk and wood-chip biochars. Chemosphere 150: 694–701. Elsevier Ltd

Yun, S. K. and T. J. Pinnavaia. 1995. Water Content and Particle Texture of Synthetic Hydrotalcite-like Layered Double Hydroxides. Chem. Mater. 7: 348–354

Zhang, C. L., G. L. Qiao, F. Zhao and Y. Wang. 2011. Thermodynamic and kinetic parameters of ciprofloxacin adsorption onto modified coal fly ash from aqueous solution. J. Mol. Liq. 163: 53–56. Elsevier B.V

Zhao, P., F. Yu, R. Wang, Y. Ma and Y. Wu. 2018. Sodium alginate/graphene oxide hydrogel beads as permeable reactive barrier material for the remediation of ciprofloxacin-contaminated groundwater. Chemosphere 200: 612–620. Elsevier Ltd.

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2023-02-22

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Yaseen Rashid Hasan, Mohammed Ali A. Shaban, Mohammed A. Ibrahim, Mohanad J. M-Ridha, & Haitham A. Hussein. (2023). EFFECT OF CALCINATION TEMPERATURE ON THE ADSORPTION PERFORMANCE OF MG/AL LAYERED DOUBLE HYDROXIDE NANOPARTICLES IN THE REMOVAL OF MEROPENEM ANTIBIOTICS. IRAQI JOURNAL OF AGRICULTURAL SCIENCES, 54(1), 42-58. https://doi.org/10.36103/ijas.v54i1.1675

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