Local electroneutrality breakdown for electrolytes within varying-section nanopores

IF 1.8 4区 物理与天体物理 Q4 CHEMISTRY, PHYSICAL
Paolo Malgaretti, Ignacio Pagonabarraga, Jens Harting
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Abstract

We determine the local charge dynamics of a \(z-z\) electrolyte embedded in a varying-section channel. By means of an expansion based on the length scale separation between the axial and transverse direction of the channel, we derive closed formulas for the local excess charge for both, dielectric and conducting walls, in 2D (planar geometry) as well as in 3D (cylindrical geometry). Our results show that, even at equilibrium, the local charge electroneutrality is broken whenever the section of the channel is not homogeneous for both dielectric and conducting walls as well as for 2D and 3D channels. Interestingly, even within our expansion, the local excess charge in the fluid can be comparable to the net charge on the walls. We critically discuss the onset of such local electroneutrality breakdown in particular with respect to the correction that it induces on the effective free energy profile experienced by tracer ions.

Abstract Image

不同截面纳米孔内电解质的局部电中和击穿。
我们确定了[公式:见正文]电解质嵌入变截面通道的局部电荷动态。通过基于通道轴向和横向之间长度尺度分离的扩展,我们得出了介电壁和导电壁局部过剩电荷在二维(平面几何)和三维(圆柱几何)中的封闭公式。我们的结果表明,即使在平衡状态下,只要通道截面不均匀,介电壁和导电壁以及二维和三维通道的局部电荷电中性都会被打破。有趣的是,即使在我们的扩展中,流体中的局部过剩电荷也可能与壁上的净电荷相当。我们认真讨论了这种局部电中性崩溃的发生,特别是它对示踪离子所经历的有效自由能曲线的修正。
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来源期刊
The European Physical Journal E
The European Physical Journal E CHEMISTRY, PHYSICAL-MATERIALS SCIENCE, MULTIDISCIPLINARY
CiteScore
2.60
自引率
5.60%
发文量
92
审稿时长
3 months
期刊介绍: EPJ E publishes papers describing advances in the understanding of physical aspects of Soft, Liquid and Living Systems. Soft matter is a generic term for a large group of condensed, often heterogeneous systems -- often also called complex fluids -- that display a large response to weak external perturbations and that possess properties governed by slow internal dynamics. Flowing matter refers to all systems that can actually flow, from simple to multiphase liquids, from foams to granular matter. Living matter concerns the new physics that emerges from novel insights into the properties and behaviours of living systems. Furthermore, it aims at developing new concepts and quantitative approaches for the study of biological phenomena. Approaches from soft matter physics and statistical physics play a key role in this research. The journal includes reports of experimental, computational and theoretical studies and appeals to the broad interdisciplinary communities including physics, chemistry, biology, mathematics and materials science.
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