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Keyword [rate capability]
Result: 21 - 40 | Page: 2 of 3
21.
Synthesis, Characterization And Electrochemical Performance Of XLi
2
MnO
3
·(1-x)LiMO
2
Cathode Materials For Lithium-Ion Batteries
22.
Improving The Rate Capability Of Cathode Material Li
2
FeSiO
4
by The Introduction Of Nano Conductive Phases
23.
Preparation Of Single-Crystalline Spinel LiMn
2
O
4
For High Performance Lithium-ion Battery Cathode Material
24.
Study On Low Temperature And Rate Performance Of LiFePO
4
Cathode
25.
Synthesis And Electrochemical Properties Of Ti-Based Oxide Nanosturctures
26.
Synthesis And Electrochemical Properties Of Ti-based Compound Nanocomposites
27.
Effects Of Capacitive Carbon On Rate Capability Of Lithium Ion Battery
28.
Synthesis And Electrochemical Performances Of Novel Carbon-Based Nanohybrids For Lithium-air And Sodium-ion Batteries
29.
Research On Lithium Iron Phosphate Battery To Improve The High-Power Performance
30.
Preparation And Performance Optimization Of NASICON Structured Na
3
V
2
(PO
4
)
2
F
3
As The Cathode Material For Sodium-ion Batteries
31.
Synthesis And Surface Modification Of LiNi
0.5
Co
0.2
Mn
0.3
O
2
Cathode Material
32.
Studies Of The Rate Capability Of Composite Electrode Of Capacitor Carbon And Ternary Materials Or Lithium Iron Phosphate
33.
Preparation And Electrochemical Properties Of Ti
3
SiC
2
Modified Li
3
V
2
(PO
4
)
3
Cathode Materials For Lithium-ion Batteries
34.
Density Functional Theory Studies On Rate Capability Of Li
2
FeSiX
4
(X=O,S)
35.
The Design And Electrochemical Performance Studies Of Non-stoichiometric Lithium Iron Phosphate
36.
Structural Optimization And Performance Improvement Of Graphite Paper-based Supercapacitors
37.
Design And Preparation Of Hybrid Transition Metal Oxides And Sulfide Nanomaterials And Their Supercapacitor Properties
38.
Structure, Preparation And Electrochemical Performance Of Ternary Manganese-based Lithium-rich Cathode Materials
39.
Chemically Modified Graphene Based Supercapacitor
40.
Preparation Of Novel Carbon Based Flexible Film And Research On Its Supercapacitor Performance
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