Impedance response of ionic liquids in long slit pores
Impedance response of ionic liquids in long slit pores
We study the dynamics of ionic liquids in a thin slit pore geometry. Beginning with the classical and dynamic density functional theories for systems of charged hard spheres, an asymptotic procedure leads to a simplified model which incorporates both the accurate resolution of the ion layering (perpendicular to the slit pore wall) and the ion transport in the pore length. This reduced-order model enables qualitative comparisons between different ionic liquids and electrode pore sizes at low numerical expense. We derive semi-analytical expressions for the impedance response of the reduced-order model involving numerically computable sensitivities, and obtain effective finite-space Warburg elements valid in the high and low frequency limits. Additionally, we perform time-dependent numerical simulations to recover the impedance response as a validation step. We investigate the dependence of the impedance response on system parameters and the choice of density functional theory used. The inclusion of electrostatic effects beyond mean-field qualitatively changes the dependence of the characteristic response time on the pore width. We observe peaks in the response time as a function of pore width, with height and location depending on the potential difference imposed. We discuss how the calculated dynamic properties can be used together with equilibrium results to optimise ionic liquid supercapacitors for a given application.
EDLC, energy storage, supercapacitors
Tomlin, Ruben J.
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Roy, Tribeni
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Kirk, Toby L.
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Marinescu, Monica
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Gillespie, Dirk
d1e20069-2b52-42fd-b553-095b9424efac
22 December 2022
Tomlin, Ruben J.
d9c4f487-7b76-4e1d-a169-69b278ca7b03
Roy, Tribeni
2d0215fb-d29c-4fca-90d3-c0290051fa93
Kirk, Toby L.
7bad334e-c216-4f4a-b6b3-cca90324b37c
Marinescu, Monica
5b74339b-fa00-4d09-a247-5440f3ba4144
Gillespie, Dirk
d1e20069-2b52-42fd-b553-095b9424efac
Tomlin, Ruben J., Roy, Tribeni, Kirk, Toby L., Marinescu, Monica and Gillespie, Dirk
(2022)
Impedance response of ionic liquids in long slit pores.
Journal of the Electrochemical Society, 169 (12), [120513].
(doi:10.1149/1945-7111/ac89b5).
Abstract
We study the dynamics of ionic liquids in a thin slit pore geometry. Beginning with the classical and dynamic density functional theories for systems of charged hard spheres, an asymptotic procedure leads to a simplified model which incorporates both the accurate resolution of the ion layering (perpendicular to the slit pore wall) and the ion transport in the pore length. This reduced-order model enables qualitative comparisons between different ionic liquids and electrode pore sizes at low numerical expense. We derive semi-analytical expressions for the impedance response of the reduced-order model involving numerically computable sensitivities, and obtain effective finite-space Warburg elements valid in the high and low frequency limits. Additionally, we perform time-dependent numerical simulations to recover the impedance response as a validation step. We investigate the dependence of the impedance response on system parameters and the choice of density functional theory used. The inclusion of electrostatic effects beyond mean-field qualitatively changes the dependence of the characteristic response time on the pore width. We observe peaks in the response time as a function of pore width, with height and location depending on the potential difference imposed. We discuss how the calculated dynamic properties can be used together with equilibrium results to optimise ionic liquid supercapacitors for a given application.
Text
Tomlin_2022_J._Electrochem._Soc._169_120513
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Published date: 22 December 2022
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© 2022 The Author(s). Published on behalf of The Electrochemical Society by IOP Publishing Limited.
Keywords:
EDLC, energy storage, supercapacitors
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Local EPrints ID: 495682
URI: http://eprints.soton.ac.uk/id/eprint/495682
ISSN: 0013-4651
PURE UUID: 9d5eeb89-0210-43e2-9724-14a2369cfcef
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Date deposited: 20 Nov 2024 17:43
Last modified: 30 Nov 2024 03:17
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Contributors
Author:
Ruben J. Tomlin
Author:
Tribeni Roy
Author:
Toby L. Kirk
Author:
Monica Marinescu
Author:
Dirk Gillespie
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