Synthesis and characterization of binary Palladium based electrocatalysts towards alcohol oxidation for fuel cell application
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Date
2018
Authors
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Publisher
University of the Western Cape
Abstract
The anode catalyst is one of the important parts of the direct alcohol fuel cell (DAFC); it is
responsible for the alcohol oxidation reaction (AOR) takes place at the anode side. Pd has
been reported to have good alcohol oxidation reactions and good stability in alkaline solution.
Better stability and activity has been reported for Pd alloyed catalysts when compared to Pd.
Choosing a suitable alcohol also has an effect on the activity and stability of the catalyst. This
study investigates the best catalyst with better AOR and the best stability and also looks at the
better alcohol to use between glycerol and ethanol for the five in-house catalysts (20% Pd,
PdNi, PdNiO, PdMn3O4 and PdMn3O4NiO on multi walled carbon nanotubes) using cyclic
voltammetry (CV), linear sweep voltammetry (LSV), electrochemical impedance
spectrometry (EIS) and chronoamperometry. HR-TEM and XRD techniques were used to
determine the particle size and average particle size, respectively while EDS used to
determine elemental composition and ICP was used to determine catalyst loading.
It was observed from LSV that PdNiO was the most active catalyst for both ethanol and
glycerol oxidation, and it was the most stable in ethanol while PdMn3O4 proved to be the
most stable catalyst in glycerol observed using chronoamperometry. The best alcohol in this
study was reported to be glycerol having given the highest current densities for all the inhouse
catalysts compared to ethanol observed using LSV. From XRD and HR-TEM studies,
particle sizes were in the range of 0.97 and 2.69 nm for XRD 3.44 and 7.20 nm for HR-TEM
with a little agglomeration for PdMn3O4 and PdMn3O4NiO.
Description
Magister Scientiae - MSc (Chemistry)
Keywords
Proton exchange membrane fuel cell, Solid oxide fuel cell, Phosphoric acid fuel cell, Molten carbonate fuel cell, Alkaline fuel cell