This research focuses on improving direct methanol alkaline fuel cell (DMAFC) performance using hydroxide-potassium-doped polyvinyl alcohol/carbon nano-tube (PVA/CNT/KOH) electrolytes. The CNTs must be functionalized with PVA polymer chains to improve their dispersion in the polymer matrix and enhance the cell performance. A functionalized CNT load of 0.05% exhibits the highest cell voltage and power density among the PVA electrolytes containing 0-0.1% CNT. The cell voltage increases with the cell temperature between 30 and 60 degrees C. The open-circuit voltage and peak power density (P-max) are highest at 6 M KOH concentration in the anode feed. A methanol concentration of 2 M produces a higher P-max compared to concentrations of 1 M and GM methanol. The cell performance is enhanced by increasing the fuel flow rate into the anode. A P-max of 68.1 mW cm(-2) is obtained for a DMAFC employing PVA/0.05%CNT/KOH electrolyte at 60 degrees C with 2 M methanol and GM KOH as the anode feed at a flow rate of 30 mL min(-1) and humidified oxygen at a flow rate of 100 mL min(-1) to the cathode. To the best of our knowledge, this P-max is the highest reported value in the literature for DMAFCs. (C) 2011 Elsevier B.V. All rights reserved.