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Determining phase transitions of layered oxides via electrochemical and crystallographic analysis
Determining phase transitions of layered oxides via electrochemical and crystallographic analysis
by Abrahams, Isaac , Fröhlich, Katja , Jahn, Marcus
in 207 Fuel cells / Batteries / Cathodes / Chemical diffusion / chemical diffusion coefficient / crystallographic analysis / Crystallography / Diffusion coefficient / Diffusion layers / Energy Materials / GITT / Jahn-Teller effect / Lithium ions / Lithium nickel manganese cobalt oxide / Mathematical analysis / NMC / Open circuit voltage / Parameters / phase transition / Phase transitions / Super capacitors / Titration / Unit cell
2020
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Determining phase transitions of layered oxides via electrochemical and crystallographic analysis
by Abrahams, Isaac , Fröhlich, Katja , Jahn, Marcus
in 207 Fuel cells / Batteries / Cathodes / Chemical diffusion / chemical diffusion coefficient / crystallographic analysis / Crystallography / Diffusion coefficient / Diffusion layers / Energy Materials / GITT / Jahn-Teller effect / Lithium ions / Lithium nickel manganese cobalt oxide / Mathematical analysis / NMC / Open circuit voltage / Parameters / phase transition / Phase transitions / Super capacitors / Titration / Unit cell
2020
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Determining phase transitions of layered oxides via electrochemical and crystallographic analysis
Determining phase transitions of layered oxides via electrochemical and crystallographic analysis
by Abrahams, Isaac , Fröhlich, Katja , Jahn, Marcus
in 207 Fuel cells / Batteries / Cathodes / Chemical diffusion / chemical diffusion coefficient / crystallographic analysis / Crystallography / Diffusion coefficient / Diffusion layers / Energy Materials / GITT / Jahn-Teller effect / Lithium ions / Lithium nickel manganese cobalt oxide / Mathematical analysis / NMC / Open circuit voltage / Parameters / phase transition / Phase transitions / Super capacitors / Titration / Unit cell
2020

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Determining phase transitions of layered oxides via electrochemical and crystallographic analysis
Determining phase transitions of layered oxides via electrochemical and crystallographic analysis
Journal Article

Determining phase transitions of layered oxides via electrochemical and crystallographic analysis

Abrahams, Isaac,
Fröhlich, Katja,
Jahn, Marcus
2020
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Overview
The chemical diffusion coefficient in LiNi 1/3 Mn 1/3 Co 1/3 O 2 was determined via the galvanostatic intermittent titration technique in the voltage range 3 to 4.2 V. Calculated diffusion coefficients in these layered oxide cathodes during charging and discharging reach a minimum at the open-circuit voltage of 3.8 V and 3.7 V vs. Li/Li + , respectively. The observed minima of the chemical diffusion coefficients indicate a phase transition in this voltage range. The unit cell parameters of LiNi 1/3 Mn 1/3 Co 1/3 O 2 cathodes were determined at different lithiation states using ex situ crystallographic analysis. It was shown that the unit cell parameter variation correlates well with the observed values for chemical diffusion in NMC cathodes; with a notable change in absolute values in the same voltage range. We relate the observed variation in unit cell parameters to the nickel conversion into the trivalent state, which is Jahn-Teller active, and to the re-arrangement of lithium ions and vacancies.
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Publisher
Taylor & Francis,Taylor & Francis Ltd,Taylor & Francis Group
Subject

207 Fuel cells

/ Batteries

/ Cathodes

/ Chemical diffusion

/ chemical diffusion coefficient

/ crystallographic analysis

/ Crystallography

/ Diffusion coefficient

/ Diffusion layers

/ Energy Materials

/ GITT

/ Jahn-Teller effect

/ Lithium ions

/ Lithium nickel manganese cobalt oxide

/ Mathematical analysis

/ NMC

/ Open circuit voltage

/ Parameters

/ phase transition

/ Phase transitions

/ Super capacitors

/ Titration

/ Unit cell

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