LiFePO4 doped with magnesium prepared by hydrothermal reaction in glucose solution
Author:
Publisher
Elsevier BV
Subject
General Chemistry
Reference23 articles.
1. The source of first-cycle capacity loss in LiFePO4
2. Reducing Carbon in LiFePO[sub 4]/C Composite Electrodes to Maximize Specific Energy, Volumetric Energy, and Tap Density
3. A Novel Concept for the Synthesis of an Improved LiFePO[sub 4] Lithium Battery Cathode
4. Reducing Carbon in LiFePO[sub 4]/C Composite Electrodes to Maximize Specific Energy, Volumetric Energy, and Tap Density
5. Enhancement of electronic conductivity ofLiFePO4by Cr doping and its identification by first-principles calculations
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1. Improving the lithium-ion diffusion and electrical conductivity of LiFePO4 cathode material by doping magnesium and multi-walled carbon nanotubes;Journal of Alloys and Compounds;2023-06
2. A Study on Crystalline Structure and Li+-Ion Diffusion Coefficient of LiNixFe1−xPO4/C Cathode Material;Arabian Journal for Science and Engineering;2023-03-31
3. Mg-doped porous spherical LiFePO4/C with high tap-density and enhanced electrochemical performance;Materials Chemistry and Physics;2022-03
4. Synthesizing a LiFePO4/graphene composite with electrochemically prepared few-layer graphene;Journal of Energy Storage;2019-04
5. Preparation and Characterization of Nanostructured Hollow MgO Spheres;Materials;2019-02-11
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