C. Hasiotis scite author profile

Polymeric membranes from blends of sulfonated polysulfones ͑SPSF͒ and polybenzimidazole ͑PBI͒ doped with phosphoric acid were developed as potential high-temperature polymer electrolytes for fuel cells and other electrochemical applications. The water uptake and acid doping of these polymeric membranes were investigated. Ionic conductivity of the membranes was measured in relation to temperature, acid doping level, sulfonation degree of SPSF, relative humidity, and blend composition. The conductivity of SPSF was of the order of 10 Ϫ3 S cm Ϫ1 . In the case of blends of PBI and SPSF it was found to be higher than 10 Ϫ2 S cm Ϫ1 . Much improvement in the mechanical strength is observed for the blend polymer membranes, especially at higher temperatures. Preliminary work has demonstrated the feasibility of these polymeric membranes for fuel-cell applications.

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New polymer electrolytes based on blends of sulfonated polysulfones with polybenzimidazole

Hasiotis

Deimede

Kontoyannis

2001

Electrochimica Acta

133

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Electrodeposition of neodymium from LiF–NdF3–Nd2O3 melts

Stefanidaki

Hasiotis

Kontoyannis

2001

Electrochimica Acta

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A Quasi-Direct Methanol Fuel Cell System Based on Blend Polymer Membrane Electrolytes

Hjuler

Hasiotis

et al. 2002

Electrochem. Solid-State Lett.

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Three-dimensional electrochemistry

Papadopoulos

Hasiotis

Kokkinidis

et al. 1991

Journal of Electroanalytical Chemistry and Interfacial Electroc

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C. Hasiotis

Development and Characterization of Acid-Doped Polybenzimidazole/Sulfonated Polysulfone Blend Polymer Electrolytes for Fuel Cells

New polymer electrolytes based on blends of sulfonated polysulfones with polybenzimidazole

Electrodeposition of neodymium from LiF–NdF3–Nd2O3 melts

A Quasi-Direct Methanol Fuel Cell System Based on Blend Polymer Membrane Electrolytes

Three-dimensional electrochemistry

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