Oxidative stable functionalized Ti3C2Tx MXene infused novel hybrid membranes for antibiotics laden hospital wastewater treatment

抗生素 氧化磷酸化 材料科学 废水 化学 化学工程 废物管理 工程类 生物化学
作者
Aya Aboukhater,Mahendra Kumar,Habiba Alsafar,Shadi W. Hasan
出处
期刊:Chemical Engineering Journal [Elsevier BV]
卷期号:520: 165738-165738 被引量:7
标识
DOI:10.1016/j.cej.2025.165738
摘要

Antibiotics in hospital wastewater have emerged as prominent contaminants because of their adverse effect on ecosystems and human health. The treatment of antibiotics-laden hospital wastewater is one of the utmost importance. This study describes the fabrication of oxidative stable functionalized MXene (Ti 3 C 2 T x -polydopamine-g-polyethylenimine) (Ti 3 C 2 T x -PDA-g-PEI) infused novel hybrid membranes via the non-solvent induced phase separation (NIPS) method for antibiotics-laden hospital wastewater (HWW) treatment. The functionalized Ti 3 C 2 T x MXene ( f -MXene) was synthesized from Ti 3 C 2 T x MXene and dopamine through mussel-inspired polymerization and Michael addition/Schiff base reaction. Hybrid membranes were then manufactured using different fractions of f -MXene, polyether sulfone (PES) and sulfonated poly (ether sulfone) (SPES). The hydrophilicity, surface texture, pore size distributions, and surface charge were tunable with the fraction of f -MXene within the matrix of hybrid membranes. The pure water flux ( J w ) of the hybrid membranes depended on the fraction of f -MXene and the J w of 1 wt% f -MXene incorporated membrane MX1 was 2.5-fold higher than the pristine membrane MX0. The hybrid membranes were utilized in antibiotic (Tetracycline: TCL and Sulfamethoxazole: SMX) removal from synthetic solutions and HWW. Only 1 wt% f -MXene was adequate to manufacture high performance hybrid membrane MX1 to remove 97.2 % TCL and 42 % SMX. Almost 75 % of chemical oxygen demand (COD) and phosphate ion (PO 4 3− ) were rejected by the membrane MX1. The enhanced performance of the hybrid membranes for the rejection of TCL and SMX was primarily governed by a combination of electrostatic repulsion, molecular adsorption, and transport pathway modification. Overall, f -MXene infused hybrid membranes were competent in treating antibiotics-contaminated HWW. • Oxidative stable functionalized Ti 3 C 2 T x MXene infused novel membranes for antibiotics removal. • MX1 membrane removes 97.2 % tetracycline and 42 % sulfamethoxazole from wastewater. • Removal of 75 % COD and phosphate from hospital wastewater by the membrane MX1. • Stable functionalized MXene ensure long-term membrane performance.
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