Engineering
Lithium-Ion Batteries
100%
Battery (Electrochemical Energy Engineering)
58%
Thermal Resistance
54%
Nickel Manganese Cobalt
50%
Crack Propagation
35%
Aging Effect
33%
Battery Capacity
31%
Physical Model
29%
Interconnects
25%
Thermal Characteristic
25%
Interface Layer
25%
Coupled Model
25%
Solid Electrolyte Interface
25%
Crack Formation
25%
Multiscale Modeling
25%
Joints (Structural Components)
25%
Metal-Oxide-Semiconductor Field-Effect Transistor
25%
Temperature Distribution
25%
Liquid Metal
25%
Failure Mechanism
25%
Active Material
25%
Coefficient of Thermal Expansion
25%
Primary Factor
25%
Heterojunctions
25%
Wide Bandgap Semiconductor
25%
Visual Inspection
25%
Failure Analysis
25%
Material Interface
25%
Scanning Acoustic Microscopy
25%
Failure Mode
25%
Delamination
25%
Module Design
25%
Current Profile
22%
Finite Element Simulation
17%
Estimation Error
12%
Experimental Result
12%
Sampling Process
12%
Macroscale
12%
Energy Gap
12%
Microstructure
12%
Multiscale Model
12%
Microscale
12%
Power Density
12%
Normal Distribution
12%
Poisson Ratio
12%
Young's Modulus
12%
Sintering Temperature
12%
Electrical Domain
12%
Bonding Wire
10%
Power Cycle
8%
Material Science
Lithium Ion Battery
96%
Battery (Electrochemical Energy Engineering)
83%
Cobalt
50%
Manganese
50%
Oxide Compound
50%
Lithium
47%
Plating
34%
Crack Propagation
28%
Finite Element Methods
25%
Density
25%
Liquid Metal
25%
Solid Electrolyte
25%
Crack Formation
25%
Thermal Cycling
25%
Multi-Scale Modeling
25%
Strain Rate
25%
Anode
21%
State-of-Charge
18%
Scanning Electron Microscopy
18%
Heat Resistance
17%
Elastic Moduli
16%
Ultimate Tensile Strength
16%
Electrochemical Reaction
14%
Sintering Temperature
12%
Weibull Distribution
12%
Young's Modulus
12%
Poisson Ratio
12%
Heterojunction
12%
Transistor
12%
Interface Fracture
12%
Interface (Material)
12%
Electron Mobility
12%
Thermal Expansion
12%
Wide Bandgap Semiconductor
12%
Delamination
12%
Scanning Acoustic Microscopy
12%
Nanoparticle
8%
Sintering
8%
Tensile Testing
8%
Impedance
6%
Electrical Conductivity
5%
Anode Material
5%
Cathode Material
5%
Keyphrases
GaN Power Device
25%
Multiscale Modeling Method
25%
Sintered Joint
25%
Solid Electrolyte Interface Layer
25%
Mechanism Consistency
25%
Metal Interconnect
25%
Thermal Cycling
25%
Degradation Diagnosis
25%
Mixed Inputs
25%
Nano-copper
25%
Viscoplastic Deformation
25%
Tensile Temperature
25%
Capacity Loss
25%
Nickel Manganese Cobalt Oxide
25%
Battery Aging
25%
Digital Twin
25%
Aging Modes
25%
SEI Growth
23%
Equivalent Cycles
21%
Void Morphology
16%
SEI Layer Growth
16%
Lithium Plating
14%
Low Parasitic Inductance
12%
Soldering
12%
Failure Mechanism
12%
Microscope Observation
12%
Thermal Parameters
12%
Thermal Resistance
12%
Electrical Parameters
12%
Thermal Cycling Test
12%
Scanning Acoustic Microscope
12%
Temperature Protocol
12%
Charging History
12%
Charging Protocol
10%
Physical Foundations
9%
Test-taking
8%
Macro Properties
8%
Silver Sintering
8%
Microscopic Void
8%
Representative Element
8%
Equivalent Poisson's Ratio
8%
Right-skewed
8%
Preferred Models
8%
Cyclic Aging Tests
8%
Evolution Law
8%
Current Motivation
8%
Electrochemical Model
8%
Lithium-ion Battery Applications
8%
Basic Physics
8%
Pie Chart
8%
