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Cathode For Lithium Ion Battery - Europe PMC

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Last Updated: 19 October 2022

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17 O NMR Spectroscopy in Lithium-Ion Battery Cathode Materials: Challenges and Interpretation.

We explore the key factors governing LIB cathodes' spectroscopy and their cycle on cycling in this Perspective, explaining how 17 O NMR spectroscopy can be used to clarify the physiology of pristine cathodes and their cycling evolution, providing insight into the difficulties associated with collecting and analyzing the samples. We also discuss the use of 17 O NMR in the context of anionic redox and the role this approach may have in determining the charge compensation mechanisms in high-capacity cathodes, and we also provide recommendations for using 17 O NMR in future avenues of study.

Source link: https://europepmc.org/article/MED/36201656


Hydrogen reduction of spent lithium-ion battery cathode material for metal recovery: Mechanism and kinetics.

Hydrogen reduction is a promising method for recovering lithium-ion battery cathode material. Hence, non-isothermal and isothermal reduction experiments were conducted to determine the hydrogen reduction kinetics' temperature dependence when using simultaneous thermogravimetric and differential thermal analysis equipped with mass spectrometry. The hydrogen reduction process could be divided into three key stages: decomposition of cathode steel, reduction of the resultant nickel and cobalt oxides, and reduction of LiMnO 2 and residual nickel and cobalt oxides can be divided into three key stages.

Source link: https://europepmc.org/article/MED/36226123


Comparative Analysis of LiMPO 4 (M = Fe, Co, Cr, Mn, V) as Cathode Materials for Lithium-Ion Battery Applications-A First-Principle-Based Theoretical Approach.

The olivine lithium-metal phosphates, which are one of the most promising candidates for cathode-electrode design, have consistently triggered research of new Li-ion batteries, where the olivine lithium-metal phosphates are one of the most promising candidates for cathode-electrode technology has been consistently pushed for energy storage. The findings show that the metal atom specification greatly influences Li diffusion across the olivine structure and different LiMPO 4's overall energetics.

Source link: https://europepmc.org/article/MED/36234393


Characterization of slurries for lithium-ion battery cathodes by measuring their flow and change in hydrostatic pressure over time and clarification of the relationship between slurry and cathode properties.

However, the particle dispersion state of cathode slurries remains uncertain, despite numerous studies being conducted to characterize cathode slurries for lithium-ion batteries. Findings The discovery of It was discovered that a slurry in which acetylene black powder forms a network structure with sufficient strength and the ability to quickly recover after breaking has yielded a cathode with comparatively high density and relatively low volume resistivity, which is consistent with breaking. The increased settling time of a cathode slurry determined by its change in hydrostatic pressure over time is also associated with both the density and volume resistance of the resulting as-cast cathode.

Source link: https://europepmc.org/article/MED/36150247


Quantitative analysis of diffuse electron scattering in the lithium-ion battery cathode material Li 1.2 Ni 0.13 Mn 0.54 Co 0.13 O 2 .

1D diffuse scattering in Li 1. 2 Mn 0. 13 O 2's electron diffraction patterns varies depending on the number of stacking faults and twins in the crystal. Both the stacking fault probability and the proportion of the different twins in the crystal were determined using an evolutionary algorithm in DISCUS, which was a diagram of the disorder in Li 1. 2 Ni 0. 13 Mn 0. 13 O 2 was created, and the ratio of the different twins in the crystal was improved using an evolutionary algorithm in DISCUS. The approach was applied to reciprocal space sections that were reconstructed from 3D electron diffraction results because they exhibit less dynamical effects than in-zone electron diffraction patterns. The short-range order parameters in submicrometer-sized crystals can now be improved from the diffuse scattering in single-crystal electron diffraction measurements using an evolutionary algorithm in DISCUS.

Source link: https://europepmc.org/article/MED/36071802


High-Energy-Density and Long-Lifetime Lithium-Ion Battery Enabled by a Stabilized Li 2 O 2 Cathode Prelithiation Additive.

When the initialization of a solid electrolyte interface at the anode side, lithium-ion batteries commonly suffer from significant irreversible capacities due to active lithium loss during lithium deposition. PMMA nanofibers remain stable during cathode slurry processing but dissolv in electrolytes and expose Li 2 O 2 for effective electrochemical oxidation. P-Li 2 O 2 fabrication methods can be used to investigate prelithiation activity in complete cells as well as its effect on electrochemical results.

Source link: https://europepmc.org/article/MED/35993675


Choline chloride-ethylene glycol based deep-eutectic solvents as lixiviants for cobalt recovery from lithium-ion battery cathode materials: are these solvents really green in high-temperature processes?

Deep-eutectic solvents are often thought to be safe, eco-friendly, and non-toxic solvents. One example is their use as lixiviants for the extraction of cobalt from lithium cobalt oxide, a common cathode component in lithium-ion batteries. In the presence of a reducing agent, cobalt reduction can be made more effective by cobalt's reduction to cobalt. However, several new journals explore the use of DESs as lixiviants at high temperatures without the addition of a reducing agent. The drawbacks of using ChCl : EG as the lixiviant in high-temperature ionometallurgical reactions are shown in this study. ChCl is not stable at 180 °C, resulting in volatile and volatile decomposition chemicals such as trimethylamine and 2-chloroethanol, according to structural analysis, resulting in volatile and toxic decomposition products such as trimethylamine and 2-chloroethanol. It was hypothesized that choline chloride reduces cobalt while simultaneously undergoing a drastic u03b2-hydrogen abstraction reaction, decomposing to trimethylamine and other degradation products.

Source link: https://europepmc.org/article/MED/36132435


Analysing the Implications of Charging on Nanostructured Li 2 MnO 3 Cathode Materials for Lithium-Ion Battery Performance.

The limiting factors for its practical use as a high-capacity lithium-ion battery cathode are capacity degradation and voltage fade of Li 2 MnO 3 during cycling. The simulation results show that the simulated amorphisation and recrystallization process is used for the production of nanoporous Li 2 MnO 3 models of various lattice sizes. The X-ray diffraction patterns for the simulated systems revealed peak broadening in comparison to the calculated XRD, as well as the emergence of peak 296 18-25 29u00b0 and peak 2u00b0 were attributed to the spinel phase. Lithium ions diffuse better on the nanoporous 73 u00c5 structures than on the nanoporous 75 u00c5 ones. This research provided insights into Li 2 MnO 3 cathodes' structural behavior during the charging procedure, which involved simultaneous removal of lithium and oxygen.

Source link: https://europepmc.org/article/MED/36013826

* Please keep in mind that all text is summarized by machine, we do not bear any responsibility, and you should always check original source before taking any actions

* Please keep in mind that all text is summarized by machine, we do not bear any responsibility, and you should always check original source before taking any actions