Litcius/Paper detail

Visualization of Dissolution‐Precipitation Processes in Lithium–Sulfur Batteries

Matthew Sadd, Salvatore De Angelis, Sofie Colding‐Jørgensen, Didier Blanchard, Rune E. Johnsen, Simone Sanna, Elena Borisova, Aleksandar Matic, Jacob R. Bowen

2022Advanced Energy Materials54 citationsDOIOpen Access PDF

Abstract

Abstract In this work, light is shed on the dissolution and precipitation processes S8 and Li 2 S, and their role in the utilization of active material in LiS batteries. Combining operando X‐ray Tomographic Microscopy and optical image analysis, in real‐time; sulfur conversion/dissolution in the cathode, the diffusion of polysulfides in the bulk electrolyte, and the redeposition of the product of the electrochemical reaction, Li 2 S, on the cathode are followed. Using a custom‐designed capillary cell, positioning the entire cathode volume within the field of view, the conversion of elemental sulfur to soluble polysulfides during discharge is quantitatively followed. The results show the full utilization of elemental sulfur in the cathode in the initial stage of discharge, with all solid sulfur converted to soluble polysulfide species. Optical image analysis shows a rapid diffusion of polysulfides as they migrate from the cathode to the bulk electrolyte at the start of discharge and back to the cathode in the later stages of discharge, with the formation and precipitation of Li 2 S. The results point to the redeposition of Li 2 S on all available surfaces in the cathode forming a continuous insulating layer, leaving polysulfide species remaining in the electrolyte, and this is the process limiting the cell's specific capacity.

Topics & Concepts

PolysulfideCathodeElectrolyteDissolutionMaterials scienceSulfurChemical engineeringElectrochemistryPrecipitationLithium (medication)DiffusionInorganic chemistryElectrodeChemistryMetallurgyPhysical chemistryMedicineEngineeringEndocrinologyThermodynamicsMeteorologyPhysicsAdvancements in Battery MaterialsAdvanced Battery Materials and TechnologiesAdvanced Battery Technologies Research