Keyphrases
In Situ
100%
Structural Assessment
100%
Morphological Evaluation
100%
Mechanical Analysis
100%
Li-ion Battery
100%
Alloy Anode
100%
Ni-Sn Alloy
100%
Ni-Sn
100%
Mechanical Properties
66%
Charge-discharge Cycling
66%
Sn Thin Film
66%
Thin Film Anodes
66%
Morphological Analysis
33%
Phase Change
33%
In-situ Test
33%
Design Optimization
33%
Electrodeposit
33%
Copper Substrate
33%
Mechanical Response
33%
Nanoindentation
33%
Fracture Behavior
33%
Lithium-ion Battery
33%
Electrochemical Cycling
33%
Changes in Mechanical Properties
33%
Anode Films
33%
Nanowear
33%
Sn Film
33%
Charge-discharge Characteristics
33%
Lithium-ion Secondary Battery
33%
Residual Stress Behavior
33%
Sn-based
33%
Intermetallic Anode
33%
Electrochemical Characteristics
33%
Engineering
Thin Films
100%
Lithium Ion Battery
100%
Anode Alloy
100%
Copper Substrate
50%
Intermetallics
50%
Residual Stress
50%
Fracture Behavior
50%
Mechanical Response
50%
Lithium-Ion Batteries
50%
Secondary Battery
50%
Optimised Design
50%
In Situ Stress Measurement
50%
Material Science
Morphology
100%
Anode
100%
Mechanical Testing
100%
Lithium Ion Battery
100%
Film
40%
Thin Films
40%
Nanoindentation
20%
Intermetallics
20%
Residual Stress
20%
Fracture Behavior
20%
Lithium Ion
20%
Secondary Battery
20%
In Situ Stress Measurement
20%
Electrodeposited Film
20%