期刊论文详细信息
Alexandria Engineering Journal
Synthesis of mesoporous iron oxide nanoparticles for adsorptive removal of levofloxacin from aqueous solutions: Kinetics, isotherms, thermodynamics and mechanism
Nomvano Mketo1  Ndzondelelo Bingwa2  Siyasanga Mpelane3  Philiswa Nosizo Nomngongo4 
[1] Analytical Facility, University of Johannesburg, P.O. Box: 524, Auckland Park 2006, South Africa;Department of Science and Innovation-National Research Foundation South African Research Chair Initiative (DSI-NRF SARChI): Nanotechnology for Water, University of Johannesburg, Doornfontein, 2028, South Africa;Department of Chemical Sciences, University of Johannesburg, South Africa;Department of Chemistry, College of Science and Engineering and Technology, Florida Science Campus, University of South Africa, Johannesburg, South Africa;
关键词: Fluoroquinolone antibiotics;    Calcination temperature;    Levofloxacin;    Mesoporous iron oxide;    Thermodynamics;   
DOI  :  
来源: DOAJ
【 摘 要 】

This study describes the synthesis, characterization, and application of mesoporous Fe2O3 as an adsorbent for levofloxacin removal from aqueous solutions. The characterization results indicated that at calcination temperatures between 250 and 350 °C, the annealed Fe2O3 showed highest surface area values of 73.6 and 90.6 m2 g−1 and lowest particle sizes of 87.8 and 48.4 nm, respectively. Furthermore, adsorption experiments revealed that calcination temperatures had a noticeable effect on the adsorption affinity of Fe2O3, and the 350 °C calcined sample exhibited higher adsorption activity (33.1 mg g−1), which was the maximum adsorption capacity (qmax) for the removal of levofloxacin. Under optimum conditions (pH: 7.5, contact time: 10 min, temperature: 25 °C, levofloxacin concentration: 10 mg L-1 and Fe2O3 dose: 0.02 g), the proposed system favored pseudo-second-order model, confirming chemisorption. Moreover, the intraparticle diffusion model demonstrated that the mechanism of levofloxacin adsorption was driven by both the surface adsorption and the intraparticle diffusion. It is worthy to indicate that, levofloxacin adsorption equilibrium data was in alignment with Langmuir isotherm model (R2 = 0.9851) and these findings were further supported by Redlich-Peterson model, signifying monolayer adsorption process. The adsorptive removal of levofloxacin from aqueous solutions was exothermic and spontaneous, as revealed by the thermodynamics parameters.

【 授权许可】

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