Nicholas W. DeLuca scite author profile

The direct methanol fuel cell (DMFC) has the potential to replace lithium-ion rechargeable batteries in portable electronic devices, but currently experiences significant power density and efficiency losses due to high methanol crossover through polymer electrolyte membranes (PEMs). Numerous publications document the synthesis and characterization of new PEMs for the DMFC. This article reviews this research, transport phenomena in PEMs, and experimental techniques used to evaluate new PEMs for the DMFC. Although many PEMs do not show significant improvements over Nafion 1 , the benchmark PEM in DMFCs, experimental results show that several new PEMs exhibit lower methanol crossover at similar proton conductivities and/or higher DMFC power densities. These results and recommendations for future research are discussed.

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Nafion®/poly(vinyl alcohol) blends: Effect of composition and annealing temperature on transport properties

DeLuca

Elabd

2006

Journal of Membrane Science

103

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Direct methanol fuel cell performance of Nafion®/poly(vinyl alcohol) blend membranes

DeLuca

Elabd

2006

Journal of Power Sources

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Nafion® blend membranes for the direct methanol fuel cell

DeLuca¹

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