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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
11

Blending of Proton Conducting Copolymers

Weißbach, Thomas 08 October 2010 (has links)
Highly proton conducting polymers for operation in hydrogen/oxygen proton exchange membrane fuel cells (PEMFCs) provide often a poor mechanical strength due to high water contents. To strengthen the conducting polymers, blends with different ratios of partially fluorinated sulfonic acid graft and diblock copolymers with perfluorinated polymers were prepared. To analyze the effect of the different quantities of the compounds, with regard to water sorption and proton conducting properties, membranes were prepared by dissolving the components and drop casting. Partially sulfonated poly([vinylidene difluoride-co-chlorotrifluoroethylene]-g-styrene) (P(VDF-co-CTFE)-g-SPS) was blended with polyvinylidene difluoride (PVDF), decreasing the ion exchange capacity (IEC). The blended polymers absorbed less water. However, the by AC impedance spectroscopy determined proton conductivity stayed stable or increased slightly. The effective proton mobility remained constant. Partially sulfonated poly([vinylidene difluoride-co-hexafluoropropylene]-b-styrene) (P(VDF-co-HFP)-b-SPS) with two different PS-block lengths were blended with different amounts of poly(vinylidene difluoride-co-hexafluoropropylene) (P(VDF-co-HFP)). In that case, the polymers absorbed less water and the proton conductivity decreased stepwise by adding more than 20 wt% P(VDF-co-HFP). The results indicate that a blending of P(VDF-co-CTFE)-g-SPS with PVDF inhibits swelling without having an effect on the proton conductivity, though water sorption and IEC are reduced.:1 Introduction 2 Literature Review 2.1 Fuel Cells 2.1.1 Proton Exchange Membrane Fuel Cells 2.1.2 Other Types of Fuel Cells 2.2 Proton Conductivity 2.3 Proton Conducting Polymers 2.4 Impedance Spectroscopy 2.5 Polymers 2.6 Blending 2.7 Synthesis 2.7.1 Atom Transfer Radical Polymerization 2.7.2 Emulsion Polymerization 3 Results 3.1 Synthesis 3.1.1 Polyvinylidene Diuoride (PVDF) 3.1.2 Diblock Copolymers P(VDF-co-HFP)-b-SPS and Blends 3.1.3 Graft Copolymer P(VDF-co-HFP)-b-SPS Blends 3.2 Degree of Sulfonation 3.3 Ionomer Content 3.4 Ion Exchange Capacity 3.5 Water Content and Uptake 3.6 Proton Concentration 3.7 Watermolecules per Ionic Group 3.8 Proton Conductivity 3.9 Proton Mobility 4 Discussion & Conclusion 5 Experimental Part 5.1 Synthesis 5.1.1 Synthesis of PVDF 5.1.2 Synthesis of P(VDF-co-HFP)-b-PS 5.1.3 Sulfonation of the Polystyrene Block 5.2 Polymer Characterization 5.3 Membrane Preparation 5.4 Membrane Characterization Bibliography Appendix

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