Impact of the salts and solvents on the SEI formation in Sb/Na batteries: An XPS analysis

Impact of the salts and solvents on the SEI formation in Sb/Na batteries: An XPS analysis

[Display omitted] •The role of salt (NaClO4 or NaPF6) and solvents (PC or EC/DMC) on SEI formation.•A full X-ray photoelectron spectroscopy (XPS) on the Sb/Na electrochemical cell.•A rationalization of the different electrochemical performances.•The solvent appears to have a key role.•The NaClO4/PC...

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Bibliographic Details
Published in:Electrochimica acta Vol. 207; pp. 284 - 292
Main Authors: Darwiche, Ali, Bodenes, Lucille, Madec, Lénaïc, Monconduit, Laure, Martinez, Hervé
Format: Journal Article
Language:English
Published: Elsevier Ltd 20-07-2016
Elsevier
Subjects:
Bulk molding compounds
Chemical Sciences
Cycles
Electrodes
Electrolyte
Electrolytes
Impact analysis
Na-ion batteries
Sodium
solid electrolyte interphase
Solvents
X-Ray Photoelectron Spectroscopy
X-Ray Photoelectron Spectroscopy
solid electrolyte interphase
Electrolyte
Na-ion batteries
Sb
Electrochemical performance
Secondary batteries
Electric discharges
Antimony
Photons
Seebeck effect
Surface analysis
Electric batteries
Reversible capacity
Lithium compounds
Electrodes
Electrolyte formulation
Composite electrode
Solid electrolyte interphase film
Photoelectrons
Solid electrolytes
Irreversible capacity
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Summary:[Display omitted] •The role of salt (NaClO4 or NaPF6) and solvents (PC or EC/DMC) on SEI formation.•A full X-ray photoelectron spectroscopy (XPS) on the Sb/Na electrochemical cell.•A rationalization of the different electrochemical performances.•The solvent appears to have a key role.•The NaClO4/PC electrolyte despite the high viscosity is the best compromise. A thorough X-ray photoelectron spectroscopy (XPS) is carried out on the Sb/Na electrochemical cell to rationalize the different electrochemical performances in terms of irreversible capacity on first cycle, cumulated capacity losses, reversible capacity and capacity retention. Surface analysis of Sb electrode cycled versus sodium using three different electrolyte formulations by changing the nature of the salt (NaClO4 or NaPF6) and the nature of the solvents (PC or EC/DMC mixture) was performed by a combined XPS core peaks and quantification data analysis to establish the main components of the solid electrolyte interphase film (SEI) and its evolution on cycling. The passivation layer formed during cycling is mainly constituted of carbonates, Na2CO3 and alkylcarbonates, that appear during the discharge after the preferential deposition of NaF from the degradation of FEC. The solvent appears to have a key role, and the NaClO4/PC electrolyte, despite the high viscosity of its solvent gives the best compromise in terms of performances by forming a stable and thick SEI at the surface of all components of the composite electrode.
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content type line 23
ISSN:0013-4686
1873-3859
DOI:10.1016/j.electacta.2016.03.089