金属/离子导体界面形成的双层电容：它能有多大？

Capacitance of the double layer formed at the metal/ionic-conductor interface: how large can it be?

机构信息

Fine Theoretical Physics Institute, University of Minnesota, Minneapolis, Minnesota 55455, USA.

出版信息

Phys Rev Lett. 2010 Mar 26;104(12):128302. doi: 10.1103/PhysRevLett.104.128302. Epub 2010 Mar 24.

DOI:10.1103/PhysRevLett.104.128302

PMID:20366568

Abstract

The capacitance of the double layer formed at a metal/ionic-conductor interface can be remarkably large, so that the apparent width of the double layer is as small as 0.3 A. Mean-field theories fail to explain such large capacitance. We propose an alternate theory of the ionic double layer which allows for the binding of discrete ions to their image charges in the metal. We show that at small voltages the capacitance of the double layer is limited only by the weak dipole-dipole repulsion between bound ions, and is therefore very large. At large voltages the depletion of bound ions from one of the capacitor electrodes triggers a collapse of the capacitance to the mean-field value.

摘要

金属/离子导体界面形成的双层电容可以非常大，以至于双层的表观宽度小至 0.3Å。平均场理论无法解释如此大的电容。我们提出了一个离子双层的替代理论，该理论允许离散离子与其在金属中的镜像电荷结合。我们表明，在小电压下，双层的电容仅受束缚离子之间的弱偶极力的限制，因此非常大。在大电压下，从电容器的一个电极中耗尽束缚离子会导致电容坍塌到平均场值。

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金属/离子导体界面形成的双层电容：它能有多大？

Capacitance of the double layer formed at the metal/ionic-conductor interface: how large can it be?

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