Water, not salt, causes most of the Seebeck effect of nonisothermal aqueous electrolytes

Abstract

When two electrolyte-immersed electrodes have different temperatures, a voltage can be measured between them. This electrolyte Seebeck effect is usually explained by cations and anions flowing differently in thermal gradients. However, our molecular dynamics simulations of aqueous electrolytes reveal a large temperature-dependent potential drop near blocking electrodes caused by water layering and orientation. The difference in surface potentials at hot and cold electrodes is more important to the Seebeck effect than ionic thermodiffusion, hot- cold.