Experimental support for the model of Bray–Liebhafsky oscillatory reaction based on the heterogeneous effects
Experimental support for the model of Bray–Liebhafsky oscillatory reaction based on the heterogeneous effects
Recently, we developed a conceptually new model of the Bray–Liebhafsky (BL) oscillatory reaction based on specific redistribution of energy connected with the formation of a new gaseous phase in the system. The model predicts that the amplitude of concentration oscillations and their frequency are tightly connected with the total amount of oxygen in the solution, present in the form of dissolved molecules and oxygen bubbles (gas cavities). As a new conceptual approach, it needs extended experimental support for further corroboration. In this work, we developed an experimental setup for simultaneous measurement of the redox state of the system by a Pt electrode, flow of the oxygen above the reaction mixture and temperature of the solution. In this way the oscillatory evolution is correlated with the formed oxygen in the system at different mixing rates and the highly exothermic development of the oxidation branch. The obtained results give strong support for the predictions of the model and offer a new conceptual base for deeper understanding of the reaction mechanism.
24975-24982
Bubanja, Itana Nuša
7aa6bfd0-4514-462e-9314-0ecda88df45b
Taylor, Annette Fiona
08028a29-428d-4732-b6b1-f7a93389b386
Stanisavljev, Dragomir
28810f8f-22ba-48ac-9914-66131ce36b01
Bubanja, Itana Nuša
7aa6bfd0-4514-462e-9314-0ecda88df45b
Taylor, Annette Fiona
08028a29-428d-4732-b6b1-f7a93389b386
Stanisavljev, Dragomir
28810f8f-22ba-48ac-9914-66131ce36b01
Bubanja, Itana Nuša, Taylor, Annette Fiona and Stanisavljev, Dragomir
(2024)
Experimental support for the model of Bray–Liebhafsky oscillatory reaction based on the heterogeneous effects.
Physical Chemistry Chemical Physics, 26 (38), .
(doi:10.1039/D4CP02742F).
Abstract
Recently, we developed a conceptually new model of the Bray–Liebhafsky (BL) oscillatory reaction based on specific redistribution of energy connected with the formation of a new gaseous phase in the system. The model predicts that the amplitude of concentration oscillations and their frequency are tightly connected with the total amount of oxygen in the solution, present in the form of dissolved molecules and oxygen bubbles (gas cavities). As a new conceptual approach, it needs extended experimental support for further corroboration. In this work, we developed an experimental setup for simultaneous measurement of the redox state of the system by a Pt electrode, flow of the oxygen above the reaction mixture and temperature of the solution. In this way the oscillatory evolution is correlated with the formed oxygen in the system at different mixing rates and the highly exothermic development of the oxidation branch. The obtained results give strong support for the predictions of the model and offer a new conceptual base for deeper understanding of the reaction mechanism.
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Accepted/In Press date: 10 September 2024
e-pub ahead of print date: 19 September 2024
Identifiers
Local EPrints ID: 499882
URI: http://eprints.soton.ac.uk/id/eprint/499882
ISSN: 1463-9076
PURE UUID: e35ff1fb-0088-492d-bafc-032ccd0098bf
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Date deposited: 08 Apr 2025 16:33
Last modified: 09 Apr 2025 02:11
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Author:
Itana Nuša Bubanja
Author:
Annette Fiona Taylor
Author:
Dragomir Stanisavljev
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