Temperature dependent EIS studies separating charge transfer impedance from contact impedance in lithium-ion symmetric cells

Keyphrases

• Activation Energy 66%
• Artificial Graphite 66%
• Blocking Electrode 66%
• Capacitance 66%
• Cell Impedance 33%
• Charge Transfer Impedance 100%
• Charge Transfer Resistance 100%
• Charge-transfer Interaction 33%
• Coin Cell 66%
• Contact Impedance 100%
• EIS Spectra 33%
• EIS Study 100%
• Electrochemical Impedance Spectra 33%
• Electrode Configuration 33%
• Electrolyte 33%
• Faradaic 33%
• Formation Process 33%
• Graphite Cell 33%
• High-frequency Impedance 33%
• LiPF6 33%
• Lithium Transport 33%
• Lithium-ion 100%
• Low Temperature 33%
• Negative Electrode 100%
• NMC532 33%
• Non-blocking 66%
• Non-faradaic 33%
• Positive Electrode 100%
• Pouch Cell 33%
• Solid Electrolyte Interphase Layer 66%
• Symmetric Cell 100%
• Temperature Effect 100%
• Temperature-dependent Measurement 33%

Engineering

• Activation Energy 66%
• Charge Transfer Resistance 100%
• Low-Temperature 33%
• Negative Electrode 100%
• Positive Electrode 100%
• Solid Electrolyte Interphase 66%
• Temperature Dependence 33%

Chemistry

• Charge Transfer Interaction 50%
• Lithium 50%
• Lithium Ion 100%
• Reaction Activation Energy 100%
• Solid Electrolyte 100%