Novel Sulfoalkoxylated Polyimide Membrane for Polymer Electrolyte Fuel Cells.

## Abstract **Summary:** Branched/crosslinked sulfonated polyimide membranes incorporating superior mechanical properties, high proton conductivity, and excellent fuel cell performance were successfully developed. The resulting polymer electrolytes displayed conductivity values of about 0.2 S · cm^

## Abstract The cost of polymer electrolyte fuel cell (PEFC) components is crucial to the commercial viability of the technology. Proton exchange membranes fabricated __via__ the method of radiation grafting offer a cost‐competitive option, because starting materials are inexpensive commodity produ

## Abstract New aromatic polyethers containing diphenylpyridine, phosphinoxide and tetramethyl‐biphenyl units have been synthesised employing various comonomers' ratios affording a complete series of soluble high molecular weight copolymers. Their properties in respect to their potential as electro

A new, milder sulfonation process was used to produce ion-exchange polymers from a commercial polysulfone (PSU). Membranes obtained from the sulfonated polysulfone are potential substitutes for perfluorosulfonic acid membranes used now in polymer electrolyte fuel cells. Sulfonation levels from 20 to

## Abstract The preparation and characterization of different types of proton‐conducting polymer blend membranes are presented in this paper. The investigations are focused on the determination of the thermal stability of the membranes, because thermal stability is one of the important parameters f