Magnetite Thin Films by Solvothermal Synthesis on a Microstructured Si Substrate as a Model to Study Energy Storage Mechanisms of Supercapacitors

Fast electrochemical phenomena occurring in supercapacitors are hard to analyze by ex situ or in situ techniques because many of them are meta-stable (the supercapacitor relaxes once it is not further polarized). In a steady state, one observes the effect of charge storage but not necessarily the me...

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Bibliographic Details
Published in:Physchem 2024-12, Vol.4 (4), p.536-547
Main Authors: Chavez, Karina, Quiroga-González, Enrique
Format: Article
Language:English
Subjects:
cyclic voltammetry
Electrodes
Electrolytes
Energy storage
energy storage mechanisms
fast energy storage
iron oxide thin film
Metal oxides
microstructured Si current collector
Morphology
Nanoparticles
Raman operando
Scanning electron microscopy
Silicon wafers
Spectrum analysis
Thin films
Voltammetry
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Summary:Fast electrochemical phenomena occurring in supercapacitors are hard to analyze by ex situ or in situ techniques because many of them are meta-stable (the supercapacitor relaxes once it is not further polarized). In a steady state, one observes the effect of charge storage but not necessarily the mechanism. This is a problem for Raman spectroscopy, too, even though Raman spectra of the electrodes of supercapacitors are commonly recorded ex situ or in a steady state in situ. Raman operando is desired, but it represents a technological challenge since the electrochemical events in a supercapacitor are very fast (occurring within seconds), and in contrast, Raman requires from seconds to minutes to collect enough photons for reliable spectra. This work presents the development of electrodes made of thin layers of iron oxide grown solvothermally on Si wafers, with a porosified surface and resistivity of 0.005 Ωcm, to study their performance as electrodes in supercapacitors and analyze their energy storage mechanisms by cyclic voltammetry and Raman operando. Being flat and containing just iron oxide and silicon, these electrodes allow for studying interfacial phenomena with minor interferents.
ISSN:2673-7167
2673-7167
DOI:10.3390/physchem4040037