Hollow polyhedral ZnCo2O4 superstructure for ethanol gas sensor and sensing mechanism study by near ambient pressure XPS

To assemble small nanoparticles into hollow polyhedron superstructure as a sensing material is a promising approach to improve the performance of metal-oxide-semiconductor gas sensors. In this study, ZnCo2O4 hollow polyhedrons...

Probing Lithium-Ion Battery Electrolytes with Laboratory Near-Ambient Pressure XPS

In this article, we present Near Ambient Pressure (NAP)-X-ray Photoelectron Spectroscopy (XPS) results from model and commercial liquid electrolytes for lithium-ion battery production using an automated laboratory NAP-XPS system. The electrolyte solutions were (i) LiPF6 in EC/DMC (LP30) as a typical commercial battery electrolyte and (ii) LiTFSI in PC as a model electrolyte. We analyzed the LP30 electrolyte solution, first in its vapor and liquid phase to compare individual core-level spectra. In a second step, we immersed a V2O5 crystal as a model cathode material in this LiPF6 solution. Additionally, the LiTFSI electrolyte model system was studied to compare and verify our findings with previous NAP-XPS data. Photoelectron spectra recorded at pressures of 2–10 mbar show significant chemical differences for the different lithium-based electrolytes. We show the enormous potential of laboratory NAP-XPS instruments for investigations of solid-liquid interfaces in electrochemical energy storage systems at elevated pressures and illustrate the simplicity and ease of the used experimental setup (EnviroESCA).