Differentiating between Ion Transport and Plating–Stripping Phenomena in Magnesium Battery Electrolytes Using <i>Operando</i> Raman Spectroscopy

Samajdar, Rudra N.; Marchesini, Sofia; Brown, Scott A.; Robertson, Stuart D.; Paton, Keith R.; Pollard, Andrew J.; Wain, Andrew J.

doi:10.1021/acsenergylett.3c00279

ACS Energy Lett.

2023

DOI: 10.1021/acsenergylett.3c00279

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Differentiating between Ion Transport and Plating–Stripping Phenomena in Magnesium Battery Electrolytes Using Operando Raman Spectroscopy

Rudra N. Samajdar

Sofia Marchesini

Scott A. Brown

et al.

Abstract: Understanding metal plating–stripping and mass transport processes is necessary for the development of new electrolytes for post-lithium energy storage applications. Operando vibrational spectroscopy is a valuable analytical tool for this purpose, enabling structural and chemical changes at electrode–electrolyte interfaces to be probed dynamically, under battery cycling conditions. In this work we apply operando Raman spectroscopy to characterize the behavior of the Mg based “all phenyl complex” [Mg2Cl3]+[AlPh… Show more

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Cited by 4 publications

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Molecular Insights into the Interfacial Phenomena at the Li Metal | Polymer Solid‐State Electrolyte in Anode‐Free Configuration During Li Plating‐Stripping via Advanced Operando ATR‐FTIR Spectroscopy

Wang,

Weiling,

Pfeiffer

et al. 2024

Advanced Energy Materials

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Solid‐state batteries are regarded as safe and high‐energy‐density candidates for next‐generation energy storage. However, gaining a mechanistic understanding of the interfacial phenomena under real electrochemically working conditions remains a major challenge for cells containing solid‐state electrolytes. This work presents an in‐house built attenuated total reflection fourier‐transform infrared (ATR‐FTIR) spectroscopy cell equipped with an internal temperature‐control unit. This cell is used for operando characterization of interfacial processes between plated Li and polymer during Li plating/stripping. As a proof of concept, a polymer electrolyte (cr‐PEO10LiTFSI) containing poly(ethylene oxide), Li bis‐(trifluoromethanesulfonyl)imide and crosslink‐initiator benzophenone (BP) is introduced on a copper mesh as current collector at 60 °C. The developed ATR‐FTIR spectroscopy setup provides detailed insights into the electrolyte degradation and reveals the crystallinity transformation of PEO at the interface during plating. Moreover, for the first time, the degradation of BP is observed. This compound, often overlooked in electrolyte systems due to its low concentration, is found to play a significant role in the interfacial electrochemistry process. Overall, this study provides a comprehensive overview of the characterization on the PEO electrolyte‐lithium metal interface and introduces a novel perspective on the reaction of BP as a crosslinking initiator in the solid‐state batteries.

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Molecular Insights into the Interfacial Phenomena at the Li Metal | Polymer Solid‐State Electrolyte in Anode‐Free Configuration During Li Plating‐Stripping via Advanced Operando ATR‐FTIR Spectroscopy

Wang,

Weiling,

Pfeiffer

et al. 2024

Advanced Energy Materials

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show abstract

Gating-out emission for fluorescence-free Raman spectra for the study of electrode interfaces

Neale,

Sazanovich,

Hardwick

2024

Current Opinion in Electrochemistry

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Toward high-energy magnesium battery anode: recent progress and future perspectives

Wu,

Xue,

et al. 2024

Materials Today Energy

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Differentiating between Ion Transport and Plating–Stripping Phenomena in Magnesium Battery Electrolytes Using Operando Raman Spectroscopy

Cited by 4 publications

References 30 publications

Molecular Insights into the Interfacial Phenomena at the Li Metal | Polymer Solid‐State Electrolyte in Anode‐Free Configuration During Li Plating‐Stripping via Advanced Operando ATR‐FTIR Spectroscopy

Molecular Insights into the Interfacial Phenomena at the Li Metal | Polymer Solid‐State Electrolyte in Anode‐Free Configuration During Li Plating‐Stripping via Advanced Operando ATR‐FTIR Spectroscopy

Gating-out emission for fluorescence-free Raman spectra for the study of electrode interfaces

Toward high-energy magnesium battery anode: recent progress and future perspectives

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