Antibiofouling polyethersulfone ultrafiltration membranes functionalized with MoS2 nanosheets and self-cleaning with hydrogen peroxide

Abstract

The development of biofouling mitigation and cleaning strategy is of paramount importance for ultrafiltration (UF) membrane biofouling. In this study, polyethersulfone (PES) UF membrane was functionalized, namely MoS2/PES composite membrane. The MoS2/PES composite membrane exhibited superior antifouling property as evidenced by antibacterial circle, static and dynamic biofouling experiments. The permeate fluxes of the pristine PES and MoS2/PES composite membrane respectively decreased by 76% and 31% at the end of 3-h filtration. After exposure of E. coli to MoS2, inhibited cell growth led to reduced membrane biofouling. The biofilm formation was retarded under the dynamic flow condition, which were further confirmed by Scanning Electron Microscopy (SEM) and Confocal Laser Scanning Microscopy (CLSM) observations. As for the enhanced biofouling removal by cleaning with H2O2, 62% of the flux recovery rate for the MoS2/PES composite membrane was much higher than the pristine PES membrane (24%). The peroxidase-like properties of MoS2 were responsible for the enhancement of the superior cleaning performance. The use of H2O2 to trigger the in-situ catalytic function of the MoS2 nano-enzyme generated more ROS and O2 for inducing bacterial cells death and facilitating detachment of biofilm. This work will be helpful to provide important insights into developing more effective strategies for biofouling control and cleaning using advanced nanomaterials in membrane-based water treatment processes.