Karin Aniol scite author profile

Novel acid-base blend membranes for application in high-temperature polymer electrolyte membrane fuel cells (HT-PEMFCs) were synthesized and characterized. The acid-base blend membranes demonstrated high thermal and excellent chemical stabilities in terms of oxidative weight loss. Small changes in the molecular weight distribution after immersion in Fenton's solution were determined with gel permeation chromatography (GPC). Scanning electron microscope (SEM) images showed the outstanding integrity of the acid-base blend membranes after a 24 hour-long Fenton's Test. In contrast to pure polybenzimidazole (PBI) and AB-PBI membranes the new acid-base membranes exhibited long-term stability in phosphoric acid (PA) at 130 °C. Ionic cross-linking between acid and base blend polymers improved the stability and integrity of the membranes. The in-situ conductivities of several acid-base blend membranes were higher than that of pure AB-PBI membranes with drastically reduced acid uptake. Membrane electrode assemblies (MEAs) based on these blend membranes were prepared showing good fuel cell performance at practical relevant operation conditions. This study proves that acid-base blends are a suitable alternative to pure PBI and AB-PBI as membranes for HT-PEMFCs.

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Interplay between structure and properties in acid-base blend PBI-based membranes for HT-PEM fuel cells

Giffin

Galbiati

Walter

et al. 2017

Journal of Membrane Science

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Sulfonated poly(arylene thioether phosphine oxide)s and poly(arylene ether phosphine oxide)s PBI-blend membranes and their performance in SO2 electrolysis

Cichon

Krüger

Krieg

et al. 2016

International Journal of Hydrogen Energy

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Karin Aniol

Novel phosphoric acid-doped PBI-blends as membranes for high-temperature PEM fuel cells

Interplay between structure and properties in acid-base blend PBI-based membranes for HT-PEM fuel cells

Sulfonated poly(arylene thioether phosphine oxide)s and poly(arylene ether phosphine oxide)s PBI-blend membranes and their performance in SO2 electrolysis

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