Hubei Key Laboratory of Mineral Resources Processing and Environment, School of Resources and Environmental Engineering, State Key Laboratory of Silicate Materials for Architectures, Wuhan University of Technology, Wuhan, 430070, China.
China-UK Water and Soil Resources Sustainable Utilization Joint Research Centre, Farmland Irrigation Research Institute, Chinese Academy of Agricultural Sciences, Xinxiang, 453002, China.
Ecotoxicol Environ Saf. 2020 Jun 15;196:110550. doi: 10.1016/j.ecoenv.2020.110550. Epub 2020 Apr 1.
Iron/zinc (Fe/Zn), phosphoric acid (HPO) or in combination (Fe/Zn + HPO) modified sludge biochar (SBC) were prepared and tested in this study to adsorb fluoroquinolones antibiotics including ciprofloxacin (CIP), norfloxacin (NOR) and ofloxacin (OFL) from water. Fe/Zn + HPO-SBC had an increased surface area (S), total pore volume (V), mesoporous volume (V), pore diameter (D) and oxygen-containing functional groups. It exhibited superior adsorption performance for CIP, NOR and OFL with the maximum adsorption amount of 83.7, 39.3, 25.4 mg g, respectively. Pseudo-second kinetic and Freundlich isotherm model presented the better fitting. The results of models and characterization analysis in combination indicated that physisorption and chemisorption, including pore filling, hydrogen bonding, π-π interaction, electrostatic interaction and functional groups complexation on a heterogeneous surface were the dominant process and mechanism. Liquid film diffusion was the main rate-limiting step. The adsorption process of CIP, NOR and OFL onto Fe/Zn + HPO-SBC were a spontaneous endothermic process. This study demonstrated that Fe/Zn + HPO modified SBC exhibited high adsorption capacity, which was a promising adsorbent for fluoroquinolones as well as for other antibiotics effective removal from waters.
铁/锌(Fe/Zn)、磷酸(HPO)或两者的组合(Fe/Zn+HPO)改性污泥生物炭(SBC)被制备并用于本研究中,以从水中吸附氟喹诺酮类抗生素,包括环丙沙星(CIP)、诺氟沙星(NOR)和氧氟沙星(OFL)。Fe/Zn+HPO-SBC 具有增加的表面积(S)、总孔体积(V)、中孔体积(V)、孔径(D)和含氧官能团。它对 CIP、NOR 和 OFL 表现出优异的吸附性能,最大吸附量分别为 83.7、39.3 和 25.4mg/g。准二级动力学和 Freundlich 等温线模型呈现更好的拟合。模型和特征分析的结果表明,物理吸附和化学吸附,包括孔填充、氢键、π-π 相互作用、静电相互作用和在非均相表面上的官能团络合,是主要的过程和机制。液膜扩散是主要的速率限制步骤。CIP、NOR 和 OFL 吸附到 Fe/Zn+HPO-SBC 上的过程是一个自发的吸热过程。本研究表明,Fe/Zn+HPO 改性 SBC 具有高吸附容量,是一种很有前途的吸附剂,可用于从水中有效去除氟喹诺酮类以及其他抗生素。
