Space Charge Layer Effect in Solid State Ion Conductors and Lithium Batteries: Principle and Perspective.

Abstract

The space charge layer (SCL) effects were initially developed to explain the anomalous conductivity enhancement in composite ionic conductors. They were further extended to qualitatively as well as quantitatively understand the interfacial phenomena in many other ionic-conducting systems. Especially in nanometre-scale systems, the SCL effects could be used to manipulate the conductivity and construct artificial conductors. Recently, existence of such effects either at the electrolyte/cathode interface or at the interfaces inside the composite electrode in all solid state lithium batteries (ASSLB) has attracted attention. Therefore, in this article, the principle of SCL on basis of defect chemistry is first presented. The SCL effects on the carrier transport and storage in typical conducting systems are reviewed. For ASSLB, the relevant effects reported so far are also reviewed. Finally, the perspective of interface engineer related to SCL in ASSLB is addressed.

Cite this paper

@article{Chen2016SpaceCL, title={Space Charge Layer Effect in Solid State Ion Conductors and Lithium Batteries: Principle and Perspective.}, author={Cheng Chen and Xiangxin Guo}, journal={Acta chimica Slovenica}, year={2016}, volume={63 3}, pages={489-95} }