Effect of standard light illumination on electrolyte’s stability of lithium-ion batteries based on ethylene and di-methyl carbonates

Gaspard Bouteau; Albert Nguyen Van-Nhien; Michel Sliwa; Nicolas Sergent; Jean Claude Lepretre; Grégory Gachot; Iryna Sagaidak; Frédéric Sauvage

doi:10.1038/s41598-018-36836-9

Effect of standard light illumination on electrolyte’s stability of lithium-ion batteries based on ethylene and di-methyl carbonates

Gaspard Bouteau
, Albert Nguyen Van-Nhien
, Michel Sliwa
, Nicolas Sergent
, Jean Claude Lepretre
, Grégory Gachot
, Iryna Sagaidak
, Frédéric Sauvage

Université de Picardie Jules Verne
Réseau sur le Stockage Electrochimique de l’Energie (RS2E)
Université de Lille
LTHE (UMR 5564 CNRS/IRD/Université de Grenoble)

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

Combining energy conversion and storage at a device and/or at a molecular level constitutes a new research field raising interest. This work aims at investigating how prolonged standard light exposure (A.M. 1.5G) interacts with conventional batteries electrolyte, commonly used in the photo-assisted or photo-rechargeable batteries, based on 1 mol.L⁻¹ LiPF₆ EC/DMC electrolyte. We demonstrate the intrinsic chemical robustness of this class of electrolyte in absence of any photo-electrodes. However, based on different steady-state and time-resolved spectroscopic techniques, it is for the first time highlighted that the solvation of lithium and hexafluorophosphate ions by the carbonates are modified by light exposure leading to absorbance and ionic conductivity modifications without detrimental effects onto the electrochemical properties.

langue originale	Anglais
Numéro d'article	135
journal	Scientific Reports
Volume	9
Numéro de publication	1
Les DOIs	https://doi.org/10.1038/s41598-018-36836-9
état	Publié - 1 déc. 2019
Modification externe	Oui

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abstract = "Combining energy conversion and storage at a device and/or at a molecular level constitutes a new research field raising interest. This work aims at investigating how prolonged standard light exposure (A.M. 1.5G) interacts with conventional batteries electrolyte, commonly used in the photo-assisted or photo-rechargeable batteries, based on 1 mol.L−1 LiPF6 EC/DMC electrolyte. We demonstrate the intrinsic chemical robustness of this class of electrolyte in absence of any photo-electrodes. However, based on different steady-state and time-resolved spectroscopic techniques, it is for the first time highlighted that the solvation of lithium and hexafluorophosphate ions by the carbonates are modified by light exposure leading to absorbance and ionic conductivity modifications without detrimental effects onto the electrochemical properties.",

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AU - Bouteau, Gaspard

AU - Van-Nhien, Albert Nguyen

AU - Sliwa, Michel

AU - Sergent, Nicolas

AU - Lepretre, Jean Claude

AU - Gachot, Grégory

AU - Sagaidak, Iryna

AU - Sauvage, Frédéric

PY - 2019/12/1

Y1 - 2019/12/1

N2 - Combining energy conversion and storage at a device and/or at a molecular level constitutes a new research field raising interest. This work aims at investigating how prolonged standard light exposure (A.M. 1.5G) interacts with conventional batteries electrolyte, commonly used in the photo-assisted or photo-rechargeable batteries, based on 1 mol.L−1 LiPF6 EC/DMC electrolyte. We demonstrate the intrinsic chemical robustness of this class of electrolyte in absence of any photo-electrodes. However, based on different steady-state and time-resolved spectroscopic techniques, it is for the first time highlighted that the solvation of lithium and hexafluorophosphate ions by the carbonates are modified by light exposure leading to absorbance and ionic conductivity modifications without detrimental effects onto the electrochemical properties.

AB - Combining energy conversion and storage at a device and/or at a molecular level constitutes a new research field raising interest. This work aims at investigating how prolonged standard light exposure (A.M. 1.5G) interacts with conventional batteries electrolyte, commonly used in the photo-assisted or photo-rechargeable batteries, based on 1 mol.L−1 LiPF6 EC/DMC electrolyte. We demonstrate the intrinsic chemical robustness of this class of electrolyte in absence of any photo-electrodes. However, based on different steady-state and time-resolved spectroscopic techniques, it is for the first time highlighted that the solvation of lithium and hexafluorophosphate ions by the carbonates are modified by light exposure leading to absorbance and ionic conductivity modifications without detrimental effects onto the electrochemical properties.

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DO - 10.1038/s41598-018-36836-9

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ER -

Effect of standard light illumination on electrolyte’s stability of lithium-ion batteries based on ethylene and di-methyl carbonates

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