Functional layers and interfaces for perovskite single- and multi-junction solar cells / Kai Oliver Brinkmann. Wuppertal, [2022]
Content
- 1 Introduction
- 2 Basics
- 2.1 Introduction of Perovskites
- 2.2 Perovskite Material Properties
- 2.2.1 Electronic, Optical and Structural Properties
- 2.2.2 Layer Formation / Crystallization
- 2.2.3 Degradation Mechanisms
- 2.3 Perovskite Solar Cell Application
- 2.4 Brief Digression on Organic Solar Cells
- 2.5 Multi-Junction Solar Cells
- 3 Formation of Perovskite Layers
- 3.1 Perovskite Deposition Techniques
- 3.2 Perovskite Layer Formation and Precursor Chemistry
- 3.3 Gas Quenching on Hydrophobic Surfaces
- 4 Stability of Perovskite Solar Cells
- 4.1 Manipulating the Air Stability by Internal ALD Barriers
- 4.2 Suppressed Thermal Decomposition by ALD Barriers
- 4.3 Combined Thermal and Illumination Stress
- 5 Hybrid Metal Oxide Barrier Layers
- 6 Semi-Transparent Cells with Hybrid Metal Oxide Layers
- 7 Interfaces of Wide Gap Perovskite Solar Cells
- 7.1 Top- and Bottom-Side Interface Optimization
- 7.2 Optical Origin of External Quantum Efficiencies Near Unity
- 8 Perovskite-Organic Tandem Solar Cells
- 8.1 Organic Sub-Cell Stability under Tandem Conditions
- 8.2 Metal-like Indium Oxide as Universal Interconnect
- 8.3 Highly Efficient Tandem Cells
- 9 Conclusion and Outlook
- 10 Publications and Conference Contributions
- 11 Appendix