دانلود کتاب Development of Solar Cells: Theory and Experiment

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Preface
Contents
Contributors
Recent Progress in Perovskite Solar Cell: Fabrication, Efficiency, and Stability
1 Introduction
1.1 The Structure and Properties of PSC
1.2 Preparation Techniques for PSC
2 The Efficiency Improvement of PSC
2.1 Materials and Microstructure
2.2 Advanced Fabrication Methods and Techniques
3 PSC Stability
3.1 Moisture Stability
3.2 UV Light Stability
3.3 Thermal Stability
4 Other Issues
5 Conclusions and Perspectives
References
State-of-the-Art of Solution-Processed Crystalline Silicon/Organic Heterojunction Solar Cells: Challenges and Future
1 Introduction
2 PEDOT:PSS and PEDOT:PSS/c-Si Heterojunction Solar Cells
2.1 Electronic Structure of PEDOT:PSS/c-Si Heterojunction Solar Cells
2.2 Fabrication Procedure of PEDOT:PSS/n-Si Heterojunction Solar Cells
3 Carrier Transport in PEDOT:PSS/n-Si Heterojunction: Schottky or p+n Junction?
3.1 Modeling of PEDOT:PSS/n-Si Junction
3.2 Analysis of PEDOT:PSS/n-Si Junction
3.3 Junction Type of PEDOT:PSS/n-Si
3.4 Evolution of the PEDOT:PSS/c-Si Heterojunction Solar Cells
4 Challenges of PEDOT:PSS/c-Si Heterojunction Solar Cells
4.1 Light Soaking Stability
4.2 Air Storage Stability
5 Future Directions to PEDOT:PSS/n-Si Heterojunction Solar Cells
5.1 Use of BSF Layer for Higher Open-Circuit Voltage
5.2 Efficient Light Management: ARC Design for PEDO:PSS/n-Si Heterojunction Solar Cells
6 Conclusions
References
Structure, Electronic, and Charge Transfer Properties of Organic Photovoltaics from Density Functional Theory Methods
1 Introduction
2 The P3HT/PCBM OPV
3 Structure of the P3HT/PCBM Interface
3.1 The Model System
3.2 Computational Details
3.3 The PES of the P3HT/PCBM Dimer
4 QTAIM Properties
5 Optical Properties
6 Charge Separation Rates
7 Conclusions
References
Dye-Sensitized Solar Cells: A Brief Historical Perspective and Uses in Multijunction Devices
1 A Brief Historical Perspective
2 Multijunction System Performances and Analysis
3 DSC/DSC Multijunction Systems
4 DSC/OPV Multijunction Systems
5 DSC/PSC Multijunction Systems
6 DSC/CIGS Multijunction Systems
7 DSC/Silicon Multijunction Systems
8 Conclusions
References
Delving Charge-Transfer Excitations in Hybrid Organic–Inorganic Hetero Junction of Dye-Sensitized Solar Cell: Assessment of Excitonic Optical Properties Using the GW and Bethe–Salpeter Green’s Function Formalisms
1 Introduction
2 Theoretical Framework
2.1 GW Formalism
2.2 Bethe–Salpeter Equation
3 Applications
3.1 Estimation of Electronic Band Gap and Optical Spectra of DSSC Photoanode Material (TiO2)
3.2 Calculations of Low-Lying Charge-Transfer Excitation Energies of Coumarin-based DSSC Photosensitizers
3.3 Estimation of Quasi-Particle Energy Levels in Organic Chromophores and Dye/Semiconductor Interfaces and Simulation of Photoelectron Spectroscopy of Organic–Inorganic Hybrid
3.4 Determination of Rate of Interfacial Electron Injection and Open-Circuit Voltage in DSSC
3.5 Large-Scale GW-BSE Formulation for Evaluating Excitonic Energies and Optical Absorption Spectra of Dye/Semiconductor Systems in DSSC
4 Summary and Outlook
References
Promising DSSCs Involving Organic D–π–A and Similar Structures for n- and p-type Semiconductors—A Theoretical Approach
1 Introduction
1.1 Requirement of Energy
1.2 Sources of Energy
2 Why Solar Energy?
2.1 What Are Photovoltaic/Solar Cells?
2.2 Different Kinds of Solar Cells
3 Why DSSCs Are Important
4 Development of New Dye Sensitizers
4.1 Studies on Metal-Centered Dyes
4.2 Studies on Organic Dyes
5 My Contributions
5.1 Theoretical Calculation Strategy
6 Conclusion
References
Application of QSPR Modeling in Designing and Prediction of Power Conversion-Efficient Solar Cell
1 Introduction
2 QSPR Modeling and Its Importance in Solar Cell
3 How QSPR Works for Solar Cell Modeling
4 Successful QSPR Models in Solar Cell
4.1 Modeling Study on DSSC
4.2 Modeling Study on PSCs
4.3 QSPR Modeling of Absorption Maxima
5 Designing of Solar Cells, Employing QSPR and Machine Learning Models
6 Databases of Solar Cells for Modeling
7 Future Avenues
7.1 Webserver for %PCE Prediction of Solar Cell
7.2 Global Models
8 Conclusion
References
Computational Screening of Organic Dye-Sensitizers for Dye-Sensitized Solar Cells: DFT/TDDFT Approach
1 Introduction
2 Working Principle of DSSCs
3 Essential Criteria of an Efficient Sensitizer
4 Factors Affecting the PCE of DSSCs
4.1 Short-Circuit Current Density (JSC)
4.2 Open-Circuit Voltage (Voc)
4.3 Interfacial Properties
4.4 Planar Electrostatic Average Protentional
4.5 Photostability in the Excited State of the Dyes
4.6 TDDFT Nonadiabatic Molecular Dynamics (NAMD) Simulation
5 Conclusions
References
Chemometric Modeling of Absorption Maxima of Carbazole Dyes Used in Dye-Sensitized Solar Cells
1 Introduction
1.1 Mechanism of DSSCs
1.2 Ideal Characteristics of the Dye Used in DSSCs
2 Materials and Methods
2.1 Dataset Preparation
2.2 Structure Representation
2.3 Descriptor Calculation and Dataset Division
2.4 Model Development and Validation
2.5 Applicability Domain Assessment
3 Results and Discussion
4 Conclusion
References
Index