1 research outputs found
Interface Investigations of a Commercial Lithium Ion Battery Graphite Anode Material by Sputter Depth Profile X‑ray Photoelectron Spectroscopy
Here we provide a detailed X-ray
photoelectron spectroscopy (XPS)
study of the electrode/electrolyte interface of a graphite anode from
commercial NMC/graphite cells by intense sputter depth profiling using
a polyatomic ion gun. The uniqueness of this method lies in the approach
using 13-step sputter depth profiling (SDP) to obtain a detailed model
of the film structure, which forms at the electrode/electrolyte interface
often noted as the solid electrolyte interphase (SEI). In addition
to the 13-step SDP, several reference experiments of the untreated
anode before formation with and without electrolyte were carried out
to support the interpretation. Within this work, it is shown that
through charging effects during X-ray beam exposure chemical components
cannot be determined by the binding energy (BE) values only, and in
addition, that quantification by sputter rates is complicated for
composite electrodes. A rough estimation of the SEI thickness was
carried out by using the LiF and graphite signals as internal references