Unraveling the Formation Mechanism of Solid
By Weiss, Manuel; Seidlhofer, Beatrix-Kamelia; Gei
Published in ACS Applied Materials & Interfaces
2019
Abstract
Most commercial lithium-ion batteries and other types of batteries rely on liquid electrolytes, which are preferred because of their high ionic conductivity, and facilitate fast charge-transfer kinetics at the electrodes. On the other hand, hybrid battery concepts that combine solid and liquid electrolytes might be needed to suppress unwanted shuttle effects in liquid electrolyte-only systems, in particular if mobile redox systems are involved in the cell chemistry. However, at the then newly introduced interface between liquid and solid electrolytes, a solid