Lithium loss in the solid electrolyte interphase: Lithium quantification of aged lithium ion battery graphite electrodes by means of laser ablation inductively coupled plasma mass spectrometry and inductively coupled plasma optical emission spectroscopy

Lithium loss in the solid electrolyte interphase: Lithium quantification of aged lithium ion battery graphite electrodes by means of laser ablation inductively coupled plasma mass spectrometry and inductively coupled plasma optical emission spectroscopy

In this work we present a new method using LA-ICP-MS to quantitatively determine the lithium content in aged graphite electrodes of a lithium ion battery (LIB) by performing total depth profiling. Matrix matched solid external standards are prepared using a solid doping approach to avoid elemental f...

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Published in:Journal of power sources Vol. 356; pp. 47 - 55
Main Authors: Schwieters, Timo, Evertz, Marco, Mense, Maximilian, Winter, Martin, Nowak, Sascha
Format: Journal Article
Language:English
Published: Elsevier B.V 2017
Subjects:
Graphite anode
Graphite intercalation compounds
Inductively coupled plasma optical emission spectroscopy
Laser ablation inductively coupled plasma mass spectrometry
Lithium loss
Solid electrolyte interphase
Solid electrolyte interphase
Lithium loss
Graphite intercalation compounds
Graphite anode
Inductively coupled plasma optical emission spectroscopy
Laser ablation inductively coupled plasma mass spectrometry
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Abstract In this work we present a new method using LA-ICP-MS to quantitatively determine the lithium content in aged graphite electrodes of a lithium ion battery (LIB) by performing total depth profiling. Matrix matched solid external standards are prepared using a solid doping approach to avoid elemental fractionation effects during the measurement. The results are compared and matched to the established ICP-OES technique for bulk quantification after performing a microwave assisted acid digestion. The method is applied to aged graphite electrodes in order to determine the lithium immobilization (= “Li loss”) in the solid electrolyte interphase after the first cycle of formation. For this, different samples including a reference sample are created to obtain varying thicknesses of the SEI covering the electrode particles. By applying defined charging voltages, an initial lithiation process is performed to obtain specific graphite intercalation compounds (GICs, with target stoichiometries of LiC30, LiC18, LiC12 and LiC6). Afterwards, the graphite electrode is completely discharged to obtain samples without mobile, thus active lithium in its lattice. Taking the amount of lithium into account which originates from the residues of the LiPF6 (dissolved in the carbon components containing electrolyte), it is possible to subtract the amount of lithium in the SEI. •Quantification of the lithium consumption during SEI formation in aged graphite.•Four different GICs and an uncycled reference sample were analyzed.•Development of self made standards and first LA-ICP-MS application for SEI analysis.
AbstractList In this work we present a new method using LA-ICP-MS to quantitatively determine the lithium content in aged graphite electrodes of a lithium ion battery (LIB) by performing total depth profiling. Matrix matched solid external standards are prepared using a solid doping approach to avoid elemental fractionation effects during the measurement. The results are compared and matched to the established ICP-OES technique for bulk quantification after performing a microwave assisted acid digestion. The method is applied to aged graphite electrodes in order to determine the lithium immobilization (= “Li loss”) in the solid electrolyte interphase after the first cycle of formation. For this, different samples including a reference sample are created to obtain varying thicknesses of the SEI covering the electrode particles. By applying defined charging voltages, an initial lithiation process is performed to obtain specific graphite intercalation compounds (GICs, with target stoichiometries of LiC30, LiC18, LiC12 and LiC6). Afterwards, the graphite electrode is completely discharged to obtain samples without mobile, thus active lithium in its lattice. Taking the amount of lithium into account which originates from the residues of the LiPF6 (dissolved in the carbon components containing electrolyte), it is possible to subtract the amount of lithium in the SEI. •Quantification of the lithium consumption during SEI formation in aged graphite.•Four different GICs and an uncycled reference sample were analyzed.•Development of self made standards and first LA-ICP-MS application for SEI analysis.
Author Nowak, Sascha
Evertz, Marco
Winter, Martin
Schwieters, Timo
Mense, Maximilian
Author_xml – sequence: 1
  givenname: Timo
  surname: Schwieters
  fullname: Schwieters, Timo
  organization: University of Münster, MEET Battery Research Center, Institute of Physical Chemistry, Corrensstraße 46, 48149 Münster, Germany
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  givenname: Marco
  surname: Evertz
  fullname: Evertz, Marco
  organization: University of Münster, MEET Battery Research Center, Institute of Physical Chemistry, Corrensstraße 46, 48149 Münster, Germany
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  givenname: Maximilian
  surname: Mense
  fullname: Mense, Maximilian
  organization: University of Münster, MEET Battery Research Center, Institute of Physical Chemistry, Corrensstraße 46, 48149 Münster, Germany
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  givenname: Martin
  surname: Winter
  fullname: Winter, Martin
  organization: University of Münster, MEET Battery Research Center, Institute of Physical Chemistry, Corrensstraße 46, 48149 Münster, Germany
– sequence: 5
  givenname: Sascha
  surname: Nowak
  fullname: Nowak, Sascha
  email: sascha.nowak@uni-muenster.de
  organization: University of Münster, MEET Battery Research Center, Institute of Physical Chemistry, Corrensstraße 46, 48149 Münster, Germany
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Keywords Solid electrolyte interphase
Lithium loss
Graphite intercalation compounds
Graphite anode
Inductively coupled plasma optical emission spectroscopy
Laser ablation inductively coupled plasma mass spectrometry
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Snippet In this work we present a new method using LA-ICP-MS to quantitatively determine the lithium content in aged graphite electrodes of a lithium ion battery (LIB)...
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SubjectTerms Graphite anode
Graphite intercalation compounds
Inductively coupled plasma optical emission spectroscopy
Laser ablation inductively coupled plasma mass spectrometry
Lithium loss
Solid electrolyte interphase
Title Lithium loss in the solid electrolyte interphase: Lithium quantification of aged lithium ion battery graphite electrodes by means of laser ablation inductively coupled plasma mass spectrometry and inductively coupled plasma optical emission spectroscopy
URI https://dx.doi.org/10.1016/j.jpowsour.2017.04.078
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