Polyclectrolytes were incorporated into porous reinforcing materials to study the properties of ionomers in confined spaces and to determine the effect of the porous material on the behaviour of the membranes. Nafion (R) was imbibed into porous polypropylene (Celgard (R)), ultra-high-molecular weight polyethylene (Daramic (R)), and polytetrafluoroethylene (PTFE) films. Through the use of reinforcing materials, it is possible to prepare membranes that are thinner, but stronger than pure ionomer membranes. Thin reinforced membranes have advantages such as lower area] resistance (as low as 0.14 Omega cm(2) for 57 mu m CG3501 + Nafion (R) compared to 0.34 Omega cm(2) for 89 mu m cast Nafion (R)) and lower dimensional changes due to swelling (as low as a 4% change in length and width for WDM + Nafion (R) compared to 13% for cast Nafion (R)). Using reinforcing materials results in a reduction in important membrane properties compared to bulk Nafion (R), such as proton conductivity (as low as 0.016 S cm(-1) for CG3401 + Nafion (R) compared to 0.076 S cm(-1) for cast Nafion (R)), effective proton mobility (as low as 3.2 x 10(-4) cm(2) V-1 S-1 CG3401 + Nafion (R) compared to 7.6 x 10(-4) cm(2) V-1 s(-1) for cast Nafion (R)), and water vapour permeance (as low as 0.036 g h(-1) Pa-1 m(-2) for WDM + Nafion (R) compared to 0.056gh(-1) Pa-1 m(-2) for cast Nafion (R)). By normalizing the membrane properties with respect to ionomer content, it was possible to examine the properties of the Nafion (R) inside the pores of the membranes. The proton conductivity (as low as 0.032 S cm(-1) for CG3401 + Nafion (R)), effective proton mobility (as low as 3.6 x 10(-4) cm(2) V-1 S-1 for CG3401 + Nafion (R)), and water vapour permeability (as low as 2.7 x 10(-6) gh(-1) Pa-1 m(-1) for PTFE MP 0.1 + Nafion (R)) of the ionomer in the membrane are also diminished compared to bulk Nafion (R) due to decreased connectivity of the ionomer and a restriction in macromolecular motions caused by the pore walls. A series of porous materials with increasing pore were also examined. As the pore size of the PTFE MP materials increased from 0.1 mu m to 10 mu m, the proton conductivity (0.022 S cm(-1) to 0.041 S cm(-1)), effective proton mobility ((4.1 to 5.6) x 10(-4) cm(2) V-1 s(-1)), and water vapour permeability ((2.4 to 4.3) x 10(-6) g h(-1) Pa-1 m(-1)) of the reinforced membranes improved with increasing pore size and the properties of the ionomer inside the membranes approached the value of bulk Nafion (R). (C) 2008 Elsevier B.V. All rights reserved.