Imaging concentration fields in microfluidic fuel cells as a mass transfer characterization platform
Article dans une revue avec comité de lecture
Auteur
Date
2023-08Journal
Electrochimica ActaRésumé
Microfluidic fuel cells (MFCs) are microfluidic electrochemical conversion devices that are used to power
electrical equipment. Their performance relies on improving reactant mass transfer at the electrode interface.
In this work, a MFC is developed to implement a novel imaging technique that allows the measurement of
reactant concentration fields, featuring formic acid as the fuel and potassium permanganate as the oxidant.
The concentration fields were imaged based on transmitted visible spectroscopy, which links the light intensity
passing through the MFC to its local reactant concentration. An analytical model was developed to estimate the
mass diffusivity and kinetic reaction rate coefficient. For the first time, mass transport and transfer coefficient
were simultaneously measured during operation. These parameters estimated using the proposed technique
can be implemented in a numerical model to predict the MFC performance and concentration distribution.
This work paves the way towards advanced imaging tools for operando mass transfer characterizations in
microfluidics and Tafel kinetic characterization in many electrochemical devices.
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