A novel poly(ether-imide)-based alkaline anion exchange membrane with no free base has been prepared and characterized for its ionic conductivity in water, which is a critical metric of its applicability in a liquid-fed direct methanol fuel cell. The poly(ether-imide)-based membranes were prepared by chloromethylation, quaternization and alkalization of commercial poly(ether-imide) and the derivatives were characterized by NMR. The chemical and thermal stabilities were investigated by measuring changes of ionic conductivities when the membranes were placed in various alkaline concentrations and temperatures for 24 h. The membranes were stable at all concentrations of KOH at room temperature, but not at elevated temperatures. The membranes were stable in 1.0M KOH solution up to 80 degrees C without losing membrane integrity. The measured conductivity of the formed membrane ranged from 2.28 to 3.51 X 10(-3) S/cm at room temperature. This preliminary study indicates that functionalized poly(etherimide) has suitable conductivity suggesting that it can be used as an alkaline anion exchange membrane in fuel cell applications. (C) 2008 Elsevier B.V. All rights reserved.