Keyphrases
Atomic Layer Deposition
100%
Active Materials
18%
Cell Failure
18%
Rate Capability
18%
Li Metal Anode
18%
Deposition Layer
18%
Electrolyte Decomposition
18%
Conversion-type Electrode
18%
Li Dendrite Formation
18%
High Charge-discharge Rates
18%
Solid Electrolyte Layer
18%
Nano-heterostructure
18%
Power Source
9%
Fabrication Methods
9%
Heterostructure
9%
Local Current Density
9%
Ionic Conductivity
9%
Theoretical Capacity
9%
Electrolyte
9%
Li-ion Battery
9%
High Capacity
9%
Long-term Cycling
9%
Volume Expansion
9%
Solid Electrolyte
9%
Remaining Challenges
9%
Li-S
9%
Liquid Electrolyte
9%
Electrode Surface
9%
Electrode Stability
9%
Battery Chemistry
9%
Solid-state Electrolyte
9%
Electrolyte Degradation
9%
Surface Material
9%
Fast Charging
9%
Charge-discharge Rate
9%
Solid Electrolyte Interphase
9%
Electrochemical Energy Storage Devices
9%
Enhanced Cycling Performance
9%
Chemical Stabilization
9%
Thin Solids
9%
Degree of Control
9%
Safety Issues
9%
Current Collector
9%
Charging-discharging
9%
Interphase Formation
9%
High Electrical Conductivity
9%
Intimate Contact
9%
Dendrite Formation
9%
Battery Design
9%
Cell Geometry
9%
Ultra-high Performance
9%
Nanoporous Template
9%
Electrode Surface Area
9%
Degradation Reaction
9%
Li-air
9%
Niche Application
9%
Personal Devices
9%
Volume Fracturing
9%
3D Solids
9%
High Voltage Electrodes
9%
3D Battery
9%
Plug-in Hybrid Electric Vehicle
9%
Bulk Electrode
9%
All-solid-state Battery
9%
Nanotech
9%
Electrode Protection
9%
Conductivity Current
9%
Electrode Particles
9%
Solid Electrolyte Coating
9%
Protection Layer
9%
Advanced Electrodes
9%
Engineering
Battery (Electrochemical Energy Engineering)
100%
Atomic Layer Deposition
100%
Discharge Rate
27%
Deposition Process
27%
Active Material
18%
Rate Capability
18%
Electrode Surface
18%
Electrolyte Layer
18%
Lithium Metal Anode
18%
Limitations
9%
Thin Layer
9%
Power Source
9%
Safety Issue
9%
High Electrical Conductivity
9%
Current Collector
9%
Heterostructures
9%
Solid Electrolyte Interphase
9%
Protection Layer
9%
Hybrid-Electric Vehicle
9%
Niche Application
9%
Plug-In Hybrid
9%
Cell Geometry
9%
Constrains
9%
Material Surface
9%
Lithium Ion Battery
9%
Electrochemical Energy Storage
9%
Material Science
Battery (Electrochemical Energy Engineering)
100%
Solid Electrolyte
100%
Lithium Metal Anode
33%
Density
16%
Heterojunction
16%
Cathode
16%
Lithium Ion Battery
16%
Electrical Conductivity
16%
Ionic Conductivity
16%
Solid State Battery
16%
Chemical Engineering
Atomic Layer Deposition
100%