TY - JOUR
T1 - Synthesis of a novel sulfonated poly(amide-imide) and its application in preparation of ultrafiltration PES membranes as a modifier
AU - Rezania, Jafar
AU - Vatanpour, Vahid
AU - Hayatipour, Moahammad
AU - Shockravi, Abbas
AU - Ehsani, Morteza
N1 - Publisher Copyright:
© 2018 Wiley Periodicals, Inc.
PY - 2018/7/20
Y1 - 2018/7/20
N2 - Sulfonated poly(amide-imide) (SPAI) copolymer was synthesized, characterized, and blended into poly(ether sulfone) (PES)/dimethylacetamide casting solutions to prepare ultrafiltration membranes. Different weight ratios of the copolymer (0–10 wt %) were mixed in the PES casting solution. The analyses of contact angle and attenuated total reflection-Fourier transform infrared spectra were used to study hydrophilicity and physicochemical properties of the membrane surface, respectively. The membranes were further characterized by scanning electron microscopy images, ultrafiltration performance, and fouling analyses. The outcomes showed that addition of the SPAI in the PES matrix improved considerably the membranes hydrophilicity. Moreover, with increasing SPAI concentration, the porosity, flux recovery ratio, and pure water permeability of the modified membranes were improved. The pure water flux was increased from 3.6 to 12.4 kg/m2 h by increasing 2 wt % SPAI. The antifouling property of the modified PES membranes against bovine serum albumin, tested by a dead-end filtration setup revealed that bovine serum albumin rejection of the obtained membrane was also enhanced and the antifouling properties of the blending membranes were improved.
AB - Sulfonated poly(amide-imide) (SPAI) copolymer was synthesized, characterized, and blended into poly(ether sulfone) (PES)/dimethylacetamide casting solutions to prepare ultrafiltration membranes. Different weight ratios of the copolymer (0–10 wt %) were mixed in the PES casting solution. The analyses of contact angle and attenuated total reflection-Fourier transform infrared spectra were used to study hydrophilicity and physicochemical properties of the membrane surface, respectively. The membranes were further characterized by scanning electron microscopy images, ultrafiltration performance, and fouling analyses. The outcomes showed that addition of the SPAI in the PES matrix improved considerably the membranes hydrophilicity. Moreover, with increasing SPAI concentration, the porosity, flux recovery ratio, and pure water permeability of the modified membranes were improved. The pure water flux was increased from 3.6 to 12.4 kg/m2 h by increasing 2 wt % SPAI. The antifouling property of the modified PES membranes against bovine serum albumin, tested by a dead-end filtration setup revealed that bovine serum albumin rejection of the obtained membrane was also enhanced and the antifouling properties of the blending membranes were improved.
KW - blends
KW - functionalization of polymers
KW - membranes
KW - polycondensation
UR - http://www.scopus.com/inward/record.url?scp=85044786208&partnerID=8YFLogxK
U2 - 10.1002/app.46477
DO - 10.1002/app.46477
M3 - Article
AN - SCOPUS:85044786208
SN - 0021-8995
VL - 135
JO - Journal of Applied Polymer Science
JF - Journal of Applied Polymer Science
IS - 28
M1 - 46477
ER -