original ) (raw )Lithium-Doping Stabilized High-Performance P2–Na0.66Li0.18Fe0.12Mn0.7O2 Cathode for Sodium Ion Batteries
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Journal of the American Chemical Society, 2019
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ACS Sustainable Chemistry & Engineering, 2018
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Advanced Functional Materials, 2020
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P3-Type Layered Sodium-Deficient Nickel-Manganese Oxides: A Flexible Structural Matrix for Reversible Sodium and Lithium Intercalation
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ChemPlusChem, 2015
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Electrochemical performance of Na0.6[Li0.2Ni0.2Mn0.6]O2cathodes with high-working average voltage for Na-ion batteries
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Co-Free P2–Na0.67Mn0.6Fe0.25Al0.15O2 as Promising Cathode Material for Sodium-Ion Batteries
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ACS Applied Energy Materials, 2018
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performance of Na 0 . 6 [ Li 0 . 2 Ni 0 . 2 Mn 0 . 6 ] O 2 cathodes with high-working average voltage for Naion batteries
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2017
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P-type Na x Ni 0.22 Co 0.11 Mn 0.66 O 2 materials: linking synthesis with structure and electrochemical performance
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J. Mater. Chem. A, 2014
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SN Applied Sciences
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Thermophysical Characterization of a Layered P2 Type Structure Na0.53MnO2 Cathode Material for Sodium Ion Batteries
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P2- a2=3Mn2=3M1=3O2 (M = Fe, Co, Ni) cathode materials in localized high concentration electrolyte for the long-cycling performance of sodium-ion batteries
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Science and Technology Development Journal, 2021
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Hybrid Li/Na Ion Batteries: Temperature-Induced Reactivity of Three-Layered Oxide (P3-Na2/3Ni1/3Mg1/6Mn1/2O2) Toward Lithium Ionic Liquid Electrolytes
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Frontiers in Chemistry, 2020
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Advanced Energy Materials, 2020
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Synthesis-Microstructure-Performance Relationship of Layered Transition Metal Oxides as Cathode for Rechargeable Sodium Batteries Prepared by High-Temperature Calcination
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