Surface science of intercalation materials and solid electrolytes : a view on electron and ion transfer at Li-ion electrodes based on energy level concepts
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Bibliographic Information
Surface science of intercalation materials and solid electrolytes : a view on electron and ion transfer at Li-ion electrodes based on energy level concepts
(SpringerBriefs in Physics)
Springer, 2020
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Contents of Works
- Intro
- Preface
- Acknowledgements
- Contents
- 1 Introduction
- References
- 2 Fundamental Aspects of Interface Formation and Charge Transfer
- 2.1 Electronic Properties and Interface Formation
- 2.1.1 Electronic Structure of Solids
- 2.1.2 Solid-Solid Contacts
- 2.1.3 Solid-Liquid Interfaces
- 2.2 Ionic Structure and Ion Transfer
- 2.2.1 Ionic Structure
- 2.2.2 Ion Transfer
- 2.3 Coupling of Electronic and Ionic Structure
- 2.4 Interface and Interlayer Formation
- References
- 3 Experimental Techniques
- 3.1 Photoelectron Spectroscopy
- 3.2 Spectroscopy of Ionic Surfaces and Interfaces
- 3.3 Integration of Surfaces Analysis and Thin Film Preparation
- References
- 4 Electronic Structure and Structure of LiCoO2 Surfaces
- References
- 5 Electronic Structure and Reactivity of Cathode-Liquid Electrolyte Interfaces
- 5.1 Adsorption of Molecules on Electrode Surfaces
- 5.2 Layer Formation at Solvent-Covered LiCoO2 Surfaces
- 5.3 Electronic Structure and Surface Chemistry
- 5.4 Double Layer Formation
- 5.5 Band Diagrams and Charge Transfer
- 5.6 Energy Levels in the Electrolyte
- 5.7 Summary and Conclusion
- References
- 7.1 Structure and Formation of the CEI Layer
- 7.2 Properties of LiCoO2-CEI Compound Interfaces
- 7.3 Summary and Conclusion
- References
- 8 Li-Ion Energy Levels, Li-Ion Transfer and Electrode Potential
- 8.1 Evaluation of Li-Ion Energy Levels
- 8.1.1 Li1s Binding Energy Differences
- 8.1.2 Defect Formation Energies
- 8.2 Reference to the Vacuum Level and Combined Diagram
- 8.3 Role of Energy Level Offsets for Ion Transfer
- 8.4 Electronic Levels and Electrode Potential
- 8.5 Summary and Conclusion
- References
- 9 Conclusion and Outlook
