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Polysulfone(PSF) membranes have gained great attention in the fields of ultrafiltration, microfiltration, and thin film composite membranes for nanofiltration or reverse osmosis. For the first time, it is proposed to fabricate PSF membranes via thermally induced phase separation(TIPS) process using diphenyl sulfone(DPSO2) and polyethylene glycol(PEG) as mixed diluent. DPSO2 is chosen as a crystallizable diluent, while PEG isconsidered in terms of molecular weight(M_w) and dosage. We systematically investigate the interactions between PSF, DPSO2 and PEG based on thesimulation calculations and solubility parameter theory. It is inferred that DPSO2 has an excellent compatibility with PSF, and the addition of PEG results in the ternary system thermodynamically less stable and then facilitates its liquid-liquid(L-L) phase separation.SEM images indicate that cellular-like pores are obvious throughout the membrane when the PEG content in the mixed diluent is 25wt%-35 wt%. We can facilely manipulate the pore size, water flux and mechanical properties of PSF membranes with the dosage of PEG-200, the M_wof PEG or the cooling rate. The successful application of TIPS can provide a new approach for structure manipulation and performance enhancement of PSF membranes.
For the first time, it is proposed to fabricate PSF membranes via thermally induced phase separation (TIPS) process using (PSF) membranes have gained great attention in the fields of ultrafiltration, microfiltration, and thin film composite membranes for nanofiltration or reverse osmosis. DPSO2 is chosen as a crystallizable diluent, while PEG isconsidered in terms of molecular weight (M_w) and dosage. We systematically investigate the interactions between PSF, DPSO2 and PEG based on thesimulation calculations and solubility parameter theory. It is inferred that DPSO2 has an excellent compatibility with PSF, and the addition of PEG results in the ternary system thermodynamically less stable and then for its liquid-liquid (LL) phase separation. SEM images indicate that cellular -like pores are clearly throughout the membrane when the PEG content in the mixed diluents is 25 wt% -35 wt%. We can facilely mani pulate the pore size, water flux and mechanical properties of PSF membranes with the dosage of PEG-200, the M_wof PEG or the cooling rate. The successful application of TIPS can provide a new approach for structure manipulation and performance enhancement of PSF membranes.