Poly(styrene sulfonic acid)/poly(vinyl alcohol) proton-conducting membranes with semi-interpenetrating networks (semi-IPNs) were prepared using a modified two-step crosslinking strategy. We previously employed sulfosuccinic acid (SSA) and glutaraldehyde (GA) as crosslinking agents to form a dense hydrophobic layer at the outer membrane surface. Although the proton conductivity of the resulting membrane increased with the content of SSA, the methanol permeability also increased. In this study it was found that the introduction of a sufonating agent, with a high molecular weight, i.e. poly(styrene sulfonic acid) (PSSA), at a PSSA/poly(vinyl alcohol) (gg⁻¹) ratio greater than 0.72, increased the density of the tangled IPN structures that effectively impede the membrane's permeability to MeOH, while enhancing its proton conductivity. The synthesized semi-IPN membranes exhibited high proton conductivities (up to 5.88×10⁻²Scm⁻¹ at room temperature, i.e. greater than those of Nafion membranes) and high resistances to MeOH permeation (ca. 1×10⁻⁷cm²S⁻¹, that is approximately one order of magnitude lower than that of Nafion membranes).