Journal article

Operando raman gradient analysis for temperature-dependent electrolyte characterization

Abstract:: Transport and thermodynamic properties are integral parameters to understand, model, and optimize state-of-the-art and next-generation battery electrolytes. The accurate measurement of these properties is experimentally challenging as well as time- and resource-intensive, and consequently, reports are scarce. Their dependence on temperature is explored even less and is commonly limited to a few temperature points. Recently, we introduced an operando Raman gradient analysis (ORGA) tool to extract transport and thermodynamic properties. Here, we expand the capabilities of ORGA by incorporating a temperature-sensitive external reference into the design. With this enhancement, we are able to visualize the local concentration of any Raman-active species in the electrolyte and detect lithium filament nucleation. We demonstrate and validate this new functionality of ORGA via an examination of lithium bis(fluorosulfonyl)imide (LiFSI) in tetraethylene glycol dimethyl ether (G4) as a function of temperature. All transport properties and activation energies are reported, and the effect of temperature is discussed.

Publication status:: Published

Peer review status:: Peer reviewed

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APA Style

Olbrich, L. F., Jagger, B., Ihli, J., & Pasta, M. (2024). Operando raman gradient analysis for temperature-dependent electrolyte characterization. ACS Energy Letters, 9(7), 3636–3642.

MLA Style

Olbrich, L. F., et al. “Operando Raman Gradient Analysis for Temperature-Dependent Electrolyte Characterization.” ACS Energy Letters, vol. 9, no. 7, American Chemical Society, 2024, pp. 3636–42.

Chicago Style

Olbrich, LF, B Jagger, J Ihli, and M Pasta. 2024. “Operando Raman Gradient Analysis for Temperature-Dependent Electrolyte Characterization.” ACS Energy Letters 9 (7): 3636–42.
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Files:: Olbrich_et_al_2024_Operando_raman_gradient.pdf

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Publisher copy:: 10.1021/acsenergylett.4c00954

Authors

+ Olbrich, LF More by this author

Institution:: University of Oxford
Division:: MPLS
Department:: Materials
Role:: Author

+ Jagger, B More by this author

Institution:: University of Oxford
Division:: MPLS
Department:: Materials
Role:: Author
ORCID:: 0000-0002-1870-3391

+ Ihli, J More by this author

Institution:: University of Oxford
Division:: MPLS
Department:: Materials
Role:: Author
ORCID:: 0000-0002-9541-5748

+ Pasta, M More by this author

Institution:: University of Oxford
Division:: MPLS
Department:: Materials
Oxford college:: St Edmund Hall
Role:: Author
ORCID:: 0000-0002-2613-4555

+ Engineering and Physical Sciences Research Council More from this funder

Funder identifier:: https://ror.org/0439y7842

Publisher:: American Chemical Society
Journal:: ACS Energy Letters More from this journal
Volume:: 9
Issue:: 7
Pages:: 3636-3642
Publication date:: 2024-07-03
Acceptance date:: 2024-06-28
DOI:: 10.1021/acsenergylett.4c00954
EISSN:: 2380-8195
ISSN:: 2380-8195

Language:: English
Pubs id:: 2013051
Local pid:: pubs:2013051
Deposit date:: 2024-07-09

Terms of use

Copyright holder:: Olbrich et al.
Copyright date:: 2024
Rights statement:: © 2024 The Authors. Published by American Chemical Society. This publication is licensed under CC-BY 4.0.

Licence:: CC Attribution (CC BY)

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