doi:10.3850/978-981-07-0319-6_241
Photopolymerizable Monomer Formulations for Nanoporous Proton Conducting Membranes
M. Kellner1, P. Radovanovic1,2, J. Matovic2 and R. Liska1
1Institute of Applied Synthetic Chemistry, TU Wien, Getreidemarkt 9/163MC, 1060, Vienna, Austria
2Institute of Sensor and Actuator Systems, TU Wien, Floragasse 7, 1040, Vienna, Austria
ABSTRACT
Direct methanol fuel cells with polymer electrolyte membranes are of great interest in recent research. Several monomers and crosslinker in a broad range of concentrations in water and NMP respectively were screened for their mechanical properties, water uptake and conductivity by photo polymerization with a polar photo initiator in porous membranes made of polypropylene and polyethersulfone respectively. As conductive polymer, primarily ones with sulfonic or phosphonic groups were used. The conductive monomers were crosslinked with varying hydrophobic and hydrophilic multifunctional monomers based on acrylates and acrylamides. Furthermore several new multifunctional crosslinker with enhanced thermal and ageing stability have been synthesized and tested.
The advantage of several different building blocks with known characteristics is the possibility to tune the polymer to special needs of an application. For example, some polymer compositions have good conductivity at lower temperatures whereas other polymers develop better properties at elevated temperatures. Choosing the right building blocks we were able to achieve better proton conductivity than Nafion. Keywords: Fuel cell, Proton exchange membrane, Polymer electrolyte.
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