Quantifying mass transport during polarization in a Li ion battery electrolyte by in situ 7Li NMR imaging.

Klett M; Giesecke M; Nyman A; Hallberg F; Lindström RW; Lindbergh G; Furó I

doi:10.1021/ja305461j

Quantifying mass transport during polarization in a Li ion battery electrolyte by in situ 7Li NMR imaging.

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1. Division of Applied Electrochemistry, Department of Chemical Engineering and Technology, KTH Royal Institute of Technology, SE-10044 Stockholm, Sweden.
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Klett M¹
(1 author)

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Journal of the American Chemical Society, 31 Aug 2012, 134(36):14654-14657
https://doi.org/10.1021/ja305461j PMID: 22900791

Abstract

Poor mass transport in the electrolyte of Li ion batteries causes large performance losses in high-power applications such as vehicles, and the determination of transport properties under or near operating conditions is therefore important. We demonstrate that in situ (7)Li NMR imaging in a battery electrolyte can directly capture the concentration gradients that arise when current is applied. From these, the salt diffusivity and Li(+) transport number are obtained within an electrochemical transport model. Because of the temporal, spatial, and chemical resolution it can provide, NMR imaging will be a versatile tool for evaluating electrochemical systems and methods.

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Quantifying mass transport during polarization in a Li ion battery electrolyte by in situ 7Li NMR imaging.

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Article citations

Operando Raman Gradient Analysis for Temperature-Dependent Electrolyte Characterization.

Correlative Analysis of Ion-Concentration Profile and Surface Nanoscale Topography Changes Using Operando Scanning Ion Conductance Microscopy.

Toward Bottom-Up Understanding of Transport in Concentrated Battery Electrolytes.

Ion transport and limited currents in supporting electrolytes and ionic liquids.

Composite Graphite-Epoxy Electrodes for In Situ Electrochemistry Coupling with High Resolution NMR.

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Quantifying mass transport during polarization in a Li ion battery electrolyte by in situ 7Li NMR imaging.

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