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Lithium-ion Battery INR18650 MJ1 3D X-ray CT Data: NMC811 Cathode vs Graphite-Silicon Anode Lower Middle Electrode Assembly (EIL-007)
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posted on 2020-05-21, 16:46 authored by Thomas HeenanThomas Heenan, Anmol JnawaliAnmol Jnawali, Matt Kok, Thomas Tranter, Chun TanChun Tan, Alexander DimitrijevicAlexander Dimitrijevic, Rhodri JervisRhodri Jervis, Dan BrettDan Brett, Paul ShearingPaul Shearing3D data on an 18650 Li-ion Battery Electrode Assembly with Nickel-Rich NMC811 Cathode and Graphite-Silicon Anode
The per-reconstruction data can be available upon request from t.heenan@ucl.ac.uk - request data 'EIL-003'
Isotropic voxel length of 10.4 µm in all four datasets.
X-ray micro-computed tomography of the upper middle of an 18650 cell.
Collected using a Zeiss Xradia 520 Versa, Carl Zeiss., CA, USA.
Accelerating tube voltage of 120 kVp.
Stationary tungsten anode on a copper substrate.
Polychromatic beam with a characteristic emission peak at 58 keV (W-Kα).
4500 X-ray radiograph projections collected.
10 second exposure per projection.
This is one of four datasets obtained from the same cell, see also: EIL-005.tif, EIL-006.tif & EIL-008.tif.
Reconstructed using commercial software (‘Reconstructor Scout-and-Scan’, Carl Zeiss., CA, U.S.A.).
Funding
EP/S003053/1
FIRG001
FIRG003
EP/M014045/1
CiET1718\59
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electrode designselectrode designelectrode compositionelectrode configurationbattery chemistrybattery chargebattery performancebattery performance testBattery Performance Simulationbattery performancesLi-ion battery electrolytesLi-Ion Batteries InterfacesLi-ion battery technologyanodecathode18650 lithium-ion battery18650 LIBsMulti Scale Modelingmulti scale modelelectrochemical impedance spectroscopy studieselectrochemistryelectrochemical experimentelectrochemical experiments