Ciprofloxacin adsorption using magnetic and ZnO nanoparticles supported activated carbon derived from Azolla filiculoides biomass

Contamination with pharmaceutical compounds, especially antibiotics, has become the focus of pollution control studies because of their high toxicity and difficulty in removing from aqueous media. In this study, activated carbon was prepared from Azolla filiculoides (ACAF) and magnetized using Fe 3...

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Published inBiomass conversion and biorefinery Vol. 14; no. 21; pp. 27001 - 27014
Main Authors Alameri, Ameer A., Alfilh, Raed H. C., Awad, Sameer A., Zaman, Gaffar Sarwar, Al-Musawi, Tariq J., Joybari, Maryam Masoumi, Balarak, Davoud, McKay, Gordon
Format Journal Article
LanguageEnglish
Published Berlin/Heidelberg Springer Berlin Heidelberg 2024
Springer Nature B.V
Subjects
Activated carbon
Adsorbents
Adsorption
Antibiotics
Aqueous solutions
Biotechnology
Endothermic reactions
Energy
Error analysis
Ferns
Iron oxides
Magnetic properties
Nanocomposites
Nanoparticles
Optimization
Original Article
Pollution control
Regression coefficients
Renewable and Green Energy
Zinc oxide
ACAF/Fe
ZnO
Ciprofloxacin
Activated carbon
Adsorption equilibrium
O
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Abstract Contamination with pharmaceutical compounds, especially antibiotics, has become the focus of pollution control studies because of their high toxicity and difficulty in removing from aqueous media. In this study, activated carbon was prepared from Azolla filiculoides (ACAF) and magnetized using Fe 3 O 4 ; finally, its further stabilization was done using ZnO nanoparticles (ACAF/Fe 3 O 4 /ZnO). The prepared adsorbent was used to remove ciprofloxacin (CIP) antibiotic from an aqueous solution. The adsorption–desorption process was performed in six consecutive runs, and only an 8% reduction was observed in the efficiency. Various parameters such as temperature, contact time, initial CIP concentration, nanocomposite concentration, and pH were examined. The results showed that removal of 100% was obtained at 75 min contact time for a CIP concentration of 10 mg/L at the optimum pH of 5 and temperature of 30 °C. The surface area and size of the nanocomposite were studied, which were equal to 1401 m 2  g −1 and 2.26 nm, respectively. Also, the nanocomposite had a saturated magnetic property equal to 21.5 emu g −1 . Equilibrium data were analyzed using four isothermal models and four kinetic models, and four error coefficient models were used to ensure. Due to the high regression coefficient and lower error coefficient, the Langmuir isotherm and pseudo-second-order (PSO) kinetic model were more consistent with equilibrium data. Moreover, the adsorption capacity of the adsorbent according to the Langmuir model was equal to 147.7, 153.3, 165.6, and 178.8 mg/g at temperatures of 20, 30, 40, and 50 °C. Examination of thermodynamic quantities shows that ΔG° is negative and ΔH° is positive. Therefore, the adsorption occurs optimally and spontaneously and has endothermic nature. Finally, this study shows a sustainable and commercially viable route for the use of environmentally friendly compounds.
AbstractList Contamination with pharmaceutical compounds, especially antibiotics, has become the focus of pollution control studies because of their high toxicity and difficulty in removing from aqueous media. In this study, activated carbon was prepared from Azolla filiculoides (ACAF) and magnetized using Fe 3 O 4 ; finally, its further stabilization was done using ZnO nanoparticles (ACAF/Fe 3 O 4 /ZnO). The prepared adsorbent was used to remove ciprofloxacin (CIP) antibiotic from an aqueous solution. The adsorption–desorption process was performed in six consecutive runs, and only an 8% reduction was observed in the efficiency. Various parameters such as temperature, contact time, initial CIP concentration, nanocomposite concentration, and pH were examined. The results showed that removal of 100% was obtained at 75 min contact time for a CIP concentration of 10 mg/L at the optimum pH of 5 and temperature of 30 °C. The surface area and size of the nanocomposite were studied, which were equal to 1401 m 2  g −1 and 2.26 nm, respectively. Also, the nanocomposite had a saturated magnetic property equal to 21.5 emu g −1 . Equilibrium data were analyzed using four isothermal models and four kinetic models, and four error coefficient models were used to ensure. Due to the high regression coefficient and lower error coefficient, the Langmuir isotherm and pseudo-second-order (PSO) kinetic model were more consistent with equilibrium data. Moreover, the adsorption capacity of the adsorbent according to the Langmuir model was equal to 147.7, 153.3, 165.6, and 178.8 mg/g at temperatures of 20, 30, 40, and 50 °C. Examination of thermodynamic quantities shows that ΔG° is negative and ΔH° is positive. Therefore, the adsorption occurs optimally and spontaneously and has endothermic nature. Finally, this study shows a sustainable and commercially viable route for the use of environmentally friendly compounds.
Contamination with pharmaceutical compounds, especially antibiotics, has become the focus of pollution control studies because of their high toxicity and difficulty in removing from aqueous media. In this study, activated carbon was prepared from Azolla filiculoides (ACAF) and magnetized using Fe3O4; finally, its further stabilization was done using ZnO nanoparticles (ACAF/Fe3O4/ZnO). The prepared adsorbent was used to remove ciprofloxacin (CIP) antibiotic from an aqueous solution. The adsorption–desorption process was performed in six consecutive runs, and only an 8% reduction was observed in the efficiency. Various parameters such as temperature, contact time, initial CIP concentration, nanocomposite concentration, and pH were examined. The results showed that removal of 100% was obtained at 75 min contact time for a CIP concentration of 10 mg/L at the optimum pH of 5 and temperature of 30 °C. The surface area and size of the nanocomposite were studied, which were equal to 1401 m2 g−1 and 2.26 nm, respectively. Also, the nanocomposite had a saturated magnetic property equal to 21.5 emu g−1. Equilibrium data were analyzed using four isothermal models and four kinetic models, and four error coefficient models were used to ensure. Due to the high regression coefficient and lower error coefficient, the Langmuir isotherm and pseudo-second-order (PSO) kinetic model were more consistent with equilibrium data. Moreover, the adsorption capacity of the adsorbent according to the Langmuir model was equal to 147.7, 153.3, 165.6, and 178.8 mg/g at temperatures of 20, 30, 40, and 50 °C. Examination of thermodynamic quantities shows that ΔG° is negative and ΔH° is positive. Therefore, the adsorption occurs optimally and spontaneously and has endothermic nature. Finally, this study shows a sustainable and commercially viable route for the use of environmentally friendly compounds.
Author Alameri, Ameer A.
Awad, Sameer A.
McKay, Gordon
Joybari, Maryam Masoumi
Balarak, Davoud
Zaman, Gaffar Sarwar
Alfilh, Raed H. C.
Al-Musawi, Tariq J.
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  surname: McKay
  fullname: McKay, Gordon
  organization: Division of Sustainable Development, College of Science, Engineering and Technology, Hamad Bin Khalifa University
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Ciprofloxacin
Activated carbon
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Snippet Contamination with pharmaceutical compounds, especially antibiotics, has become the focus of pollution control studies because of their high toxicity and...
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SubjectTerms Activated carbon
Adsorbents
Adsorption
Antibiotics
Aqueous solutions
Biotechnology
Endothermic reactions
Energy
Error analysis
Ferns
Iron oxides
Magnetic properties
Nanocomposites
Nanoparticles
Optimization
Original Article
Pollution control
Regression coefficients
Renewable and Green Energy
Zinc oxide
Title Ciprofloxacin adsorption using magnetic and ZnO nanoparticles supported activated carbon derived from Azolla filiculoides biomass
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