Multilayer‐coated polyphenylsulfone membranes with superior antifouling properties of PEG‐NH2 hydrogel for ultrafiltration process

Abstract This study explores application of poly (ethylene glycol) (PEG)‐based hydrogel to improve the antifouling properties and performance of polyphenylsulfone (PPSU) membrane. The modification of PPSU membrane was performed via coating different ratio of polydopamine (PDA) to 3‐(aminopropyl)triethoxysilane (APTES) as interlayer on surface of PPSU membrane followed by grafting of PEG‐NH 2 hydrogel. The as‐prepared membranes were characterized and results confirmed the successful coating of interlayer and hydrogel. The performance of as‐prepared membranes was measured using pure water flux, humic acid (HA), and bovine serum albumin (BSA) separation. The PDA‐APTES (50:50) was selected as the optimal interlayer to graft hydrogel with respect to their superior effect on properties of resultant membrane. The permeate flux and HA rejection increased from 35.2 LMH and 55% for pristine PPSU membrane to 83 LMH and 96% for optimal membrane. For optimal membrane the flux recovery ratio (FRR) value of 96% and 93% determined for BSA and HA separation, respectively. Chemical stability examined and the results confirmed that the hydrogel‐coated membrane was more stable in acidic media compared with alkali media. In summary, the simultaneous presence of the interlayer and the grafted hydrogel had a great impact on the morphology, performance, anticlogging properties, and acid resistance of the modified membranes.