Improving Li+ Kinetics and Structural Stability of Nickel-Rich Layered Cathodes by Heterogeneous Inactive-Al3+ Doping

doi 10.1021/acssuschemeng.8b00909.s001
Full Text
Abstract

Available in full text

Date

Unknown

Authors

Unknown

Publisher

American Chemical Society (ACS)

Related search

Improving the Structural Stability of Li-Rich Layered Cathode Materials by Constructing an Antisite Defect Nanolayer Through Polyanion Doping

ChemElectroChem
CatalysisElectrochemistry
2017English

Improving the Structure and Cycling Stability of Ni-Rich Layered Cathodes by Dual Modification of Yttrium Doping and Surface Coating

English

Surface/Interfacial Structure and Chemistry of High-Energy Nickel-Rich Layered Oxide Cathodes: Advances and Perspectives

Small
Materials ScienceNanoscienceEngineeringBiomaterialsMedicineBiotechnologyNanotechnologyChemistry
2017English

Improved Cycling Stability in High-Capacity Li-Rich Vanadium Containing Disordered Rock Salt Oxyfluoride Cathodes

Journal of Materials Chemistry A
Materials ScienceChemistrythe EnvironmentSustainabilityRenewable Energy
2019English

Improved Cyclability of Nickel-Rich Layered Oxides

MRS Advances
2020English

Effect of Magnesium Doping on the Structural Stability of Layered Linio2 Based Cathode Materials.

International Journal of Advanced Research
2016English

Depth-Dependent Oxygen Redox Activity in Lithium-Rich Layered Oxide Cathodes

Journal of Materials Chemistry A
Materials ScienceChemistrythe EnvironmentSustainabilityRenewable Energy
2019English

Preparation, Lithium Storage Performance and Thermal Stability of Nickel-Rich Layered LiNi0.815 Co0.15 Al0.035 O2 /RGO Composites

ChemElectroChem
CatalysisElectrochemistry
2018English

Lowering Charge Transfer Barrier of LiMn2O4 via Nickel Surface Doping to Enhance Li+ Intercalation Kinetics at Subzero Temperatures

English

Amanote Research

Note-taking for researchers

Follow Amanote

© 2024 Amaplex Software S.P.R.L. All rights reserved.

Privacy PolicyRefund Policy