Journal
JOURNAL OF POWER SOURCES
Volume 558, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.jpowsour.2022.232603
Keywords
MEA; Catalyst layer; Solvent; Morphology; Polarization curve fitting
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The effects of solvent composition and catalyst concentration on the structure and properties of the catalyst layer were investigated. Different concentrations and compositions of catalyst slurry were used to prepare catalyst layers. The evaporation rate of the catalyst ink influenced the pore structure of the catalyst layer. Solvent composition and ink composition affected the mass transfer loss of the membrane electrode assembly.
The effects of solvent composition and catalyst concentration in ink on the structure and properties of the catalyst layer are investigated. Catalyst layers (CLs) are prepared by slurry with different concentrations and composi-tions. Catalyst layer's morphology and cell performance are measured. The evaporation rate of the catalyst ink affects the pore structure of the catalyst layer (CL). When the volatilization rate is fast, the pore structure of CL is dense, and large cracks appear on the surface, which increases the mass transfer resistance of the CL. When CL is prepared from water-rich solvents (the mass fraction is 70%), the solvent volatilization rate is relatively slow, and the Marangoni flow effect exists in the local area volatilization, which makes the interior of the CL more porous and the surface forms a protruding structure. Finally, the polarization curve is fitted by semi-empirical formula, and three voltage losses (activation overpotential, ohmic overpotential, and concentration over-potential) are distinguished. When the solvent component ratio is 7/3 (water/iPA), the maximum power density is 0.897 W/cm2. The ink composition mainly affects the mass transfer loss of the membrane electrode assembly (MEA).
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