Proton-Exchange Sulfonated Poly (ether ether ketone) (SPEEK)/SiO x-S Composite Membranes in Direct Methanol Fuel Cells

Abstract

A sulfonated poly(ether ether ketone) (SPEEK) membrane with a fairly high degree of sulfonation (DS) can swell excessively and even dissolve at high temperature. To solve these problems, insolvable functionalized silica powder with sulfonic acid groups (SiO x -S) was added into the SPEEK matrix (DS = 55.1%) to prepare SPEEK/SiO x -S composite membranes. The decrease in both the swelling degree and the methanol permeability of the membranes was a dose-dependent result of addition of the SiO x -S powder. Pure SPEEK membrane swelled 52.6% at 80°C, whereas the SPEEK/SiO x -S (15%, by mass) membrane swelled only 27.3% at the same temperature. From room temperature to 80°C, all SPEEK/SPEEK/SiO x -S composite membranes had methanol permeability of about one order of magnitude lower than that of Nafion®115. Compared with pure SPEEK membranes, the addition of the SiO x -S powder not only leads to higher proton conductivity, but also increases the dimensional stability at higher temperatures, and greater proton conductivity can be achieved at higher temperature. The SPEEK/SiO x -S (20%, by mass) membrane could withstand temperature up to 145°C, at which in 100% relative humidity (RH) its proton conductivity exceeded slightly that of Nafion®115 membrane and reached 0.17 S·cm −1, while pure SPEEK membrane dissolved at 90°C. The SPEEK/SiO x -S composite membranes are promising for use in direct methanol fuel cells because of their good dimensional stability, high proton conductivity, and low methanol permeability.