Thermal properties of phosphoric acid-doped polybenzimidazole membranes in water and methanol¨Cwater mixtures

Abstract

The thermal properties of phosphoric acid-doped poly[2-2¡ä-(m-phenylene)-5-5¡ä bi-benzimidazole] (PBI) and poly[2,5-benzimidazole] (ABPBI) membranes, ionomeric materials with promising properties to be used as electrolytes in direct methanol and in high temperature polymer electrolyte membrane (PEM) fuel cells, were studied by means of differential scanning calorimetry (DSC) technique in the temperature range from −145 ¡ãC to 200 ¡ãC. The DSC scans of samples equilibrated in water at different relative humidities (RH) and in liquid water¨Cmethanol mixtures were analyzed in relation to glass transition, water crystallization/melting and solvent desorption in different temperature regions. The thermal relaxation observed in the very low temperature region could be ascribed to the glass transition of the H3PO4¨CH2O mixture confined in the polymeric matrix. After cooling the samples up to −145 ¡ãC, frozen water was detected in PBI and ABPBI at different RH, although at 100% RH less amount of water had crystallized than that observed in Nafion membranes under the same conditions. Even more important is the fact that the freezing degree of water is much lower in ABPBI membranes equilibrated in liquid water¨Cmethanol mixtures than that observed for PBI and, in a previous study, for Nafion. Thus, apart from other well known properties, acid-doped ABPBI emerges as an excellent ionomer for applications in direct methanol fuel cells working in cold environments.