Two series of random sulfonated poly(benzothiazole-co-benzimidazole)
polymers (sPBT-BI) with 70% and 60% degree of sulfonation were
evaluated as proton exchange membranes. sPBT was also prepared for a
comparative study. The mechanical properties of sPBT-BI were greatly
enhanced by incorporation of benzimidazole (BI); sPBT-BI70-10 showed a
tensile strength of 125 MPa and elongation at break of 38.9%, an
increase of 56.5% and 145%, respectively, compared with sPBT. The
solubility, dimensional stability, thermal properties, and oxidative
stability of sPBT-BI were also improved. The ionic clusters of sPBT-BI
membranes in both AFM phase images and TEM images became narrower with
increasing amounts of BI while containing the same molar amount of
sulfonic acid groups. This resulted in lower dimensional swelling and
higher mechanical strength, but the proton conductivity decreased.
However, high proton conductivity was achieved by incorporating an
appropriate content of BI. PEMFC H2/air single cell performances and durabilities were improved by incorporation of 5% of BI units in sPBT