石墨烯
纤维素
氧化物
复合数
四环素
化学
化学工程
材料科学
复合材料
纳米技术
抗生素
有机化学
生物化学
工程类
作者
Soodamani Periyasamy,Jun Hou,Natrayasamy Visawanathan,Yang Li,Zijun Yang,Guoxiang You
标识
DOI:10.1016/j.envres.2025.121695
摘要
Tetracycline antibiotic and hexavalent chromium removal from the wastewater is crucial for preventing future environmental trouble. This study aimed to develop an eco-friendly biocomposite made from an enhanced graphene oxide-functionalized hydrocalumite/cellulose composite for co-adsorbative removal of TC antibiotic and toxic Cr(VI). The synthesized GO@CellHC composite was characterized using various microscopic techniques. The GO@CellHC composite possessed the superior removal for TC and Cr(VI), achieving 27.4 and 42.6 mg/g in single systems, and 24.8 and 39.6 mg/g in binary systems, all within 40 min. In pH results, the maximum removal was observed at an acidic pH of 3 for Cr(VI) and 5 for TC, respectively. The co-ions results demonstrated that the composite efficiently removed both pollutants, except in the presence of PO 4 3− and CO 3 2− . The Langmuir isotherm indicated the strongest adsorption capacity and favored both systems. Thermodynamic studies revealed that the adsorption of both systems onto the GO@CellHC composite removes TC and Cr(VI) by endothermic and spontaneous system. Kinetic results demonstrated that TC adsorption showed a higher rate constant k 2 (single: 0.01676 min −1 and binary: 0.0138 min −1 ) compared to Cr(VI) adsorption (single: 0.01478 min −1 and binary: 0.01007 min −1 ). The GO@CellHC composite retained more than 80 % after three cycles, and field results suggesting that the biocomposite can be utilized for the removal of binary water pollutants.
科研通智能强力驱动
Strongly Powered by AbleSci AI