Influence of oxygen on chemoconvective patterns in the iodine clock reaction
Influence of oxygen on chemoconvective patterns in the iodine clock reaction
There is increasing interest in using chemical clock reactions to drive material formation; however, these reactions are often subject to chemoconvective effects, and control of such systems remains challenging. Here, we show how the transfer of oxygen at the air–water interface plays a crucial role in the spatiotemporal behavior of the iodine clock reaction with sulfite. A kinetic model was developed to demonstrate how the reaction of oxygen with sulfite can control a switch from a low-iodine to high-iodine state under well-stirred conditions and drive the formation of transient iodine gradients in unstirred solutions. In experiments in thin layers with optimal depths, the reaction couples with convective instability at the air–water interface forming an extended network-like structure of iodine at the surface that develops into a spotted pattern at the base of the layer. Thus, oxygen drives the spatial separation of iodine states essential for patterns in this system and may influence pattern selection in other clock reaction systems with sulfite.
10136-10145
Liu, Haimiao
1f9c281f-d50b-47fa-ae70-d449aea4b256
Taylor, Annette F.
08028a29-428d-4732-b6b1-f7a93389b386
8 December 2022
Liu, Haimiao
1f9c281f-d50b-47fa-ae70-d449aea4b256
Taylor, Annette F.
08028a29-428d-4732-b6b1-f7a93389b386
Liu, Haimiao and Taylor, Annette F.
(2022)
Influence of oxygen on chemoconvective patterns in the iodine clock reaction.
The Journal of Physical Chemistry B, 126 (48), .
(doi:10.1021/acs.jpcb.2c04682).
Abstract
There is increasing interest in using chemical clock reactions to drive material formation; however, these reactions are often subject to chemoconvective effects, and control of such systems remains challenging. Here, we show how the transfer of oxygen at the air–water interface plays a crucial role in the spatiotemporal behavior of the iodine clock reaction with sulfite. A kinetic model was developed to demonstrate how the reaction of oxygen with sulfite can control a switch from a low-iodine to high-iodine state under well-stirred conditions and drive the formation of transient iodine gradients in unstirred solutions. In experiments in thin layers with optimal depths, the reaction couples with convective instability at the air–water interface forming an extended network-like structure of iodine at the surface that develops into a spotted pattern at the base of the layer. Thus, oxygen drives the spatial separation of iodine states essential for patterns in this system and may influence pattern selection in other clock reaction systems with sulfite.
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liu-taylor-2022-influence-of-oxygen-on-chemoconvective-patterns-in-the-iodine-clock-reaction
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e-pub ahead of print date: 23 November 2022
Published date: 8 December 2022
Identifiers
Local EPrints ID: 499566
URI: http://eprints.soton.ac.uk/id/eprint/499566
ISSN: 1520-5207
PURE UUID: 85563d19-c7c9-4bd0-93a2-a47215bf330c
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Date deposited: 27 Mar 2025 17:31
Last modified: 28 Mar 2025 03:15
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Author:
Haimiao Liu
Author:
Annette F. Taylor
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