Ion Depletion Microenvironments Mapped at Active Electrochemical Interfaces with <i>Operando</i> Freezing Cryo-Electron Microscopy

Dutta, Nikita S.; Weddle, Peter J.; Hathaway, Oscar; Al-Jassim, Mowafak; Jungjohann, Katherine

doi:10.1021/acsenergylett.4c00622

ACS Energy Lett.

2024

DOI: 10.1021/acsenergylett.4c00622

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Ion Depletion Microenvironments Mapped at Active Electrochemical Interfaces with Operando Freezing Cryo-Electron Microscopy

Nikita S. Dutta,

Peter J. Weddle,

Oscar Hathaway

et al.

Abstract: Interfacial structural and chemical evolution underpins safety, energy density, and lifetime in batteries and other electrochemical systems. During lithium electrodeposition, local nonequilibrium conditions can arise that promote heterogeneous lithium morphologies but are challenging to directly study, particularly at the nanoscale. Here we map chemical microenvironments at the active copper/electrolyte interface during lithium electrodeposition, presenting operando freezing cryogenic electron microscopy (cryo… Show more

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Cited by 3 publications

References 34 publications

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Cryo−electron microscopy, powerful assistant for advancing battery

Bai,

Huang,

Wang

et al. 2024

Journal of Alloys and Compounds

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Cryo−electron microscopy, powerful assistant for advancing battery

Bai,

Huang,

Wang

et al. 2024

Journal of Alloys and Compounds

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Unravelling complex mechanisms in materials processes with cryogenic electron microscopy

Lee,

Jeon,

Kim

et al. 2025

Chem. Sci.

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Operando Freezing Cryogenic Electron Microscopy of Active Battery Materials

Dutta,

Carroll,

Neale

et al. 2024

Microscopy and Microanalysis

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Understanding structural and chemical evolution of battery materials during operation is critical to achieving safe, efficient, and long-lasting energy storage. Cryogenic electron microscopy (cryo-EM) has become a valuable tool in battery characterization, leveraging low temperatures to improve stability of sensitive materials under electron beam irradiation. However, typical cryo-EM sample preparations leave extended time between the electrochemical point of interest and ex situ freezing of samples, during which active structures may relax, degrade, or otherwise evolve. Here, we detail a method for operando freezing cryo-EM to preserve and characterize native electrode and interfacial structures that arise during battery cycling, based on an operando plunge freezer and cold sample removal process. We validate the method on multiple electrode materials and quantify and discuss the freezing rate achieved. Operando freezing cryo-EM can be used to directly visualize transient features that arise at active electrochemical interfaces, to enable deeper understanding of structural evolution and interfacial chemistry in batteries and other electrochemical systems.

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Ion Depletion Microenvironments Mapped at Active Electrochemical Interfaces with Operando Freezing Cryo-Electron Microscopy

Cited by 3 publications

References 34 publications

Cryo−electron microscopy, powerful assistant for advancing battery

Cryo−electron microscopy, powerful assistant for advancing battery

Unravelling complex mechanisms in materials processes with cryogenic electron microscopy

Operando Freezing Cryogenic Electron Microscopy of Active Battery Materials

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