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Sydonne Swaby,Nieves Ureña,María Teresa Pérez-Prior,Carmen del Río,Alejandro Várez,Jean-Yves Sanchez,Cristina Iojoiu,Belén Levenfeld 한국공업화학회 2023 Journal of Industrial and Engineering Chemistry Vol.122 No.-
A series of proton exchange membranes based on sulfonated multiblock copolymers with three polysulfone(PSU) and polyphenylsulfone (PPSU) ratios (50/50, 60/40 and 75/25) are prepared following a synthesisstrategy that aims to achieve a microphase separation. A selective sulfonation of PSU blocks wasobserved in copolymers with a high proportion of PSU. The water uptake is higher in these materials(31% and 57% for SPES 50/50 and SPES 75/25, respectively at 60 C) while the tensile strength was lower(56.0 MPa and 40.6 MPa for SPES 50/50 and SPES 75/25 in the H+ form, respectively). Ionic conductivity ofSPES 75/25 membranes measured both ex situ and in situ at 80 C is 25 and 31 mScm1, respectively. Fuelcell tests reveal that SPES 75/25 shows the highest value for the maximum power density (670 mWcm2at 70 C and 100% of RH) which is higher than that achieved for SPES 50/50 (400 mWcm2). In addition,the high current density obtained for SPES 75/25 (1000 mAcm2 at 0.6 V and 70 C) compared withSPES50/50 (600 mAcm2) and Nafion 112 (450 mAcm2 at 75 C) shows its promising properties as solidelectrolyte in polymeric fuel cells.