Water gradient manipulation through the polymer electrolyte membrane of an operating microfluidic water electrolyzer
Article dans une revue avec comité de lecture
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https://ars.els-cdn.com/content/image/1-s2.0-S0378775324012497-mmc1.pdfDate
2024-12Journal
Journal of Power SourcesAbstract
The key component of a polymer electrolyte membrane (PEM) water splitting electrolyzer is its membrane.
Despite decades of research, the transport phenomena occurring within the membrane during electrolysis –
which are vital to the device’s efficiency – have yet to be fully understood. In this work, controlling the anolyte
concentration can effectively be used to tune the PEM water gradient, but it comes with a tradeoff in electro-
chemical performance. Infrared (IR) imaging is coupled with electrochemical impedance spectroscopy and dis-
tribution of relaxation times to elucidate the relationship between membrane hydration and ohmic, kinetic, and
mass transport losses. Varied H2SO4 anolyte concentrations manifested water diffusion gradients through the
PEM of the electrolyzer, where the strongest water diffusion gradients | Δλfit | (relative to open circuit voltage)
were observed for the most concentrated anolyte. However, tuning the anolyte concentration came with a
tradeoff between a lower ohmic resistance (from 4.4 Ω cm 2 to 4.0 Ω cm 2 for 0.1 mol L 1 to 1.0 mol L 1 H2SO4
anolyte) and higher kinetic and mass transport losses accompanied by increasingly unstable performance. These
findings showcase the potential of IR imaging when coupled with a microfluidic PEM electrolyzer and
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