The halide perovskite layer

For more info about our services contact : help@bestpfe.com

Table of contents

Abstract
Chapter 1: Context
1.1 Introduction
1.1.1 Solar energy
1.1.2 Photovoltaic solar cells
1.2 Dye-Sensitized solar cells
1.3 Electron transport process in the ssDSSCs
1.4 Solar cell photovoltaic characteristics
1.4.1 Standard solar spectral irradiance
1.4.2 Current-voltage characteristics
1.4.3 Quantum efficiency measurement
1.4.4 Impedance Spectroscopy
1.5 Perovskite sensitized solar cells
1.5.1 Introduction of perovskite component
1.5.2 Recent milestones in the halide perovskite solar cell
1.6 The components in the perovskite solar cell
1.6.1 The compact metal oxide blocking layer
1.6.2 The electron transport layer
1.6.3 The halide perovskite layer
1.6.4 The hole transport layer
1.6.5 The back contact
References
Chapter 2: Synthesis and morphological properties of oxide contact layers
2.1 Introduction
2.2 ZnO layers electrodeposited from nitrate precursor
2.2.1 Experimental
2.2.2 Results
2.3 Electrodeposition of ZnO in the Chloride/Oxygen System
2.3.1 Experimental
2.3.2 Results
2.4 One-dimensional TiO2 nanotube arrays
2.4.1 Experimental
2.4.2 Results and discussions
2.5 Thin mesoporous TiO2 layer
2.5.1 Experimental
2.5.2 Results
2.6 Conclusion
References
Chapter 3: Electrochemical design of ZnO structured layers for efficient PSC application
3.1 Sensitization of ZnO electrodeposited structures by CH3NH3PbI3 perovskite layers
3.1.1 Experimental
3.1.2 The characteristics of CH3NH3PbI3 layer
3.2 Perovskite sensitized solar cells
3.3 Conclusion
References
Chapter 4: A fast and low temperature preparation method of ZnO films for PSC applications
4.1 Perovskite sensitized solar cells based on i-ZnO ETL
4.1.1 Effect of the deposition time of i-ZnO layer
4.1.2 Effect of the transparent conductive oxide (TCO) substrate
4.2 Conclusion
References
Chapter 5: Effect of oxide contact layer on the properties of CH3NH3PbI3 for PSC applications
5.1 The preparation and properties of oxide contact layer
5.1.1 Preparation of oxide contact layer
5.1.2 Oxide layer characterizations
5.2 Effect of oxide substrate on the perovskite preparation
5.2.1 Effect of oxide substrate on the one-step perovskite preparation
5.2.2 Effect of oxide substrate on the two-step perovskite preparation
5.2.3 The properties of the heterostructures
5.3 Effect of ETL and perovskite preparation route on the solar cell performances
5.3 Conclusion
References
Chapter 6: One-dimensional self-standing TiO2 nanotube arrayed layers designed for PSC applications
6.1 The preparation and properties of TiO2 layers
6.1.1 The preparation of TiO2 nanotube arrays.
6.1.2 The properties of TiO2 nanotube arrays.
6.2 The properties of perosvskite sensitized solar cells
6.3 Conclusions
References