Electric Fields and Charge Separation for Solid Oxide Fuel Cell Electrodes

Abstract: Activation losses at solid oxide-fuel cell (SOFC) electrodes have been widely attributed to charge transfer at the electrode surface. The electrostatic nature of electrode-gas interactions allows us to study these phenomena by simulating an electric field across the electrode-gas interface, where we are able to describe the activation overpotential using Density Functional Theory (DFT). The electrostatic responses to the electric field are used to approximate the behaviour of an electrode under electrical bias… Show more