We review an iconic class of chemical oscillators driven by phase transition instabilities, namely Gas Evolution Oscillators (GEOs). These systems show oscillatory dynamics in the delivery of gas sustained simple reactions yielding gaseous products in a liquid mixture, due to nucleation and supersaturation phenomena. After presenting the main features and properties of these systems, we deepen the underlying mechanism through a unified picture of the various models that have been proposed to describe this kind of oscillations. We finally discuss a concrete example of how such instabilities can impact chemical processes with applied relevance.
Budroni, M.A., Rustici, M., Rossi, F. (2024). Exploring Gas Evolution Oscillators: Mechanisms and Applications. CHEMPHYSCHEM [10.1002/cphc.202400841].
Exploring Gas Evolution Oscillators: Mechanisms and Applications
Budroni, Marcello A.;Rossi, Federico
2024-01-01
Abstract
We review an iconic class of chemical oscillators driven by phase transition instabilities, namely Gas Evolution Oscillators (GEOs). These systems show oscillatory dynamics in the delivery of gas sustained simple reactions yielding gaseous products in a liquid mixture, due to nucleation and supersaturation phenomena. After presenting the main features and properties of these systems, we deepen the underlying mechanism through a unified picture of the various models that have been proposed to describe this kind of oscillations. We finally discuss a concrete example of how such instabilities can impact chemical processes with applied relevance.File | Dimensione | Formato | |
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https://hdl.handle.net/11365/1280597