Journal
JOURNAL OF THE ELECTROCHEMICAL SOCIETY
Volume 168, Issue 3, Pages -Publisher
ELECTROCHEMICAL SOC INC
DOI: 10.1149/1945-7111/abe7a4
Keywords
fuel cells— PEM; impedance; inactive catalyst layer; proton transport; electron transport; modeling
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By placing an inactive catalyst layer between two membranes in a proton exchange membrane fuel cell, a model is developed to analyze the impedance characteristics of the catalyst layer, allowing for estimation of its proton and electron conductivity, as well as capacitance, without the need for complicated curve fitting.
Placing a catalyst layer between two membranes in a PEM fuel cell one gets a membrane-electrode assembly with inactive catalyst layer (ICL). A model for ICL impedance is developed taking into account finite electron conductivity of the layer. Analytical expression for the ICL impedance is derived. Analysis of characteristic features of the ICL Nyquist spectrum leads to simple analytical expressions for the high-frequency and polarization resistivity, for the summit frequency and for the straight high-frequency part of the spectrum. The results allow to estimate the ICL proton and electron conductivities and double layer capacitance without complicated curve fitting.
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