Synthesis and characterisation of new polymer liquid crystals for externally  regulated Direct Methanol Fuel Cells.

A. Martínez; P. Henderson; E. Ballester; C. Imrie; A. Ribes

doi:10.24084/repqj07.448

Authors

A. Martínez School of Industrial Design Engineering Universidad Politecnica de Valencia Author
P. Henderson Department of Chemistry, Meston Walk University of Aberdeen Author
E. Ballester School of Industrial Design Engineering Universidad Politecnica de Valencia Author
C. Imrie Department of Chemistry, Meston Walk University of Aberdeen Author
A. Ribes School of Industrial Design Engineering Universidad Politecnica de Valencia Author

DOI:

https://doi.org/10.24084/repqj07.448

Keywords:

Direct methanol fuel cells, crossover, bio-alcohols, liquid crystals

Abstract

In this communication we present our recent work related to the design, synthesis and characterisation of new liquid crystalline materials which will be used as externally controlled electrolytes in Direct Methanol Fuel Cells (DMFC). The aim is to obtain materials with a hybrid hydrophobic / hydrophilic structure in order to minimize the “crossover” effect, which causes yield losses of up to 30% in DMFCs. By inducing liquid crystallinity to the new electrolytes, their morphology and therefore their diffusion properties against water and methanol can be externally controlled by means of electrical fields.

Synthesis and characterisation of new polymer liquid crystals for externally regulated Direct Methanol Fuel Cells.

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E-ISSN: 2172-038X

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