INIS
sodium ions
100%
capacity
77%
cathodes
75%
doped materials
58%
performance
57%
carbon
50%
sodium
43%
anodes
41%
electrochemistry
41%
applications
40%
wastes
34%
electrodes
29%
zinc
25%
growth
25%
dendrites
25%
hydroxides
25%
phase transformations
25%
food
25%
temperature range 0273-0400 k
25%
lithium ion batteries
20%
voltage
19%
storage
17%
energy storage systems
15%
charges
15%
retention
14%
increasing
14%
range
14%
layers
13%
market
12%
levels
12%
metals
9%
additives
9%
resources
9%
distance
8%
comparative evaluations
8%
slabs
8%
diffusion
8%
volume
8%
lattice parameters
8%
concentration
7%
precursor
7%
efficiency
7%
scanning electron microscopy
6%
energy
6%
cobalt
6%
energy density
6%
chemistry
6%
production
6%
power density
6%
lithium
6%
Keyphrases
Sodium-ion Batteries
80%
Cathode Material
75%
Na2Mn3O7
50%
Hard Carbon
50%
High Capacity
43%
Rechargeable Sodium Batteries
31%
Doped Materials
30%
Tetrapropylammonium Hydroxide
25%
Growth Suppressor
25%
Sodium-ion Cathodes
25%
Non-doped
25%
Recent Advances
25%
Partial Substitution
25%
Fe-doped
25%
Dendrite Growth
25%
Zn Dendrites
25%
Rechargeable Aqueous Batteries
25%
Enhanced Electrochemical Performance
25%
Food Waste
25%
Phase Transformation
25%
Biowaste
25%
Room Temperature
25%
Hard Carbon Anode
25%
Layered Cathode Materials
18%
Capacity Retention
18%
Interlayer Spacing
17%
Energy Storage System
16%
Phosphoric Acid
15%
P-type Doping
15%
Electrochemical Performance
14%
NaNi0.5Mn0.5O2
12%
Zr-doped
12%
Zr Doping
12%
Charge Capacity
12%
Voltage Range
12%
Initial Charge
12%
Sodium
12%
Volume Change
12%
Na +
12%
Diffusion Pathway
12%
High Operating Voltage
12%
Phase Transition
12%
Undoped
12%
Level Structure
12%
Cut-off Voltage
12%
Capacity Fade
12%
Li-ion Battery
12%
Lattice Parameter
12%
Initial Coulombic Efficiency
8%
Anode Material
8%
Material Science
Sodium Ion Battery
100%
Cathode Material
75%
Anode
50%
Sodium
47%
Battery (Electrochemical Energy Engineering)
31%
Nuclear Magnetic Resonance
25%
Scanning Electron Microscopy
25%
X-Ray Diffraction
25%
Aqueous Battery
25%
Zinc
25%
Lithium Ion Battery
23%
Density
18%
Anode Material
17%
Electronic Circuit
12%
Zinc Anode
12%
Doping (Additives)
12%
Electrolyte Additive
12%
Lattice Constant
12%
Cobalt
6%
Layered Material
6%
Lithium
6%
Cathode
6%
Manganese
6%
X Ray Diffraction Analysis
6%
Crystal Structure
6%