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Hoboken, NJ : John Wiley & Sons, Inc., 2017

1 online zdroj

ISBN 9781119283737 (elektronická kniha)

ISBN 9781119283720 (elektronická kniha)

ISBN 9781119283744

ISBN 9781119283713 (vázáno)

Tištěné vydání: Printable solar cells. Hoboken, NJ : John Wiley & Sons, Inc., 2017 ISBN 9781119283713

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Popsáno podle dat dodaných poskytovatelem

* Perovskite

001479560

Preface // Part I Hybrid Materials and Process Technologies for Printable Solar Cells // 1 Organic and Inorganic Hybrid Solar Cells // 1.1 Introduction // 1.2 Organic/Inorganic Hybrid Solar Cells // 1.2.1 Introduction to Hybrid Solar Cells // 1.2.2 Hybrid Solar Cells // 1.2.2.1 Operational Principles of Bulk Heterojunction Hybrid Solar Cells // 1.2.2.2 Bulk Heterojunction Hybrid Solar Cells // 1.2.2.3 Bilayer Heterojunction Hybrid Solar Cells // 1.2.2.4 Inverted-Type Hybrid Bulk Heterojunction Solar Cells // 1.2.2.5 Dye-Sensitized Solar Cells // 1.2.2.6 Perovskite Solar Cells1.3 Conclusion // References // 2 Solution Processing and Thin Film Formation of Hybrid Semiconductors for Energy Applications // 2.1 Physical Chemical Principles of Film Formation by Solution Processes: From Suspensions of Nanoparticles and Solutions to Nucleation, Growth, Coarsening and Microstructural Evolution of Films // 2.2 Solution-Processing Techniques for Thin Film Deposition // 2.2.1 Spin Coating // 2.2.2 Doctor Blade // 2.2.3 Slot-Die Coating // 2.2.4 Spray Coating // 2.3 Properties and Characterization of Thin Films: Transport, Active and Electrode Layers in Thin Film Solar Cells2.4 Understanding the Crystallization Processes in Hybrid Semiconductor Films: Hybrid Perovskite as a Model // 2.4.1 Thermal Transitions Revealed by DSC // 2.4.2 Heat Transfer Processes in a Meso-Superstructured Perovskite Solar Cell // 2.4.3 Effect of the Annealing Process on Morphology and Crystalline Properties of Perovskite Films // 2.4.4 Role of Precursor Composition in the Crystallinity of Perovskite Films: Understanding the Role of Additives and Moisture in the Final Properties of Perovskite LayersReferences // 3 Organic-Inorganic Hybrid Solar Cells Based on Quantum Dots // 3.1 Introduction // 3.2 Polymer/QD Solar Cells // 3.2.1 Working Principle // 3.2.2 Device Parameters // 3.2.2.1 Open-Circuit Voltage (Voc) // 3.2.2.2 Short-Circuit Current (Jsc) //

3.2.2.3 Fill Factor (FF) // 3.2.3 Device Structure // 3.2.4 Progress of Polymer/QD Solar Cells // 3.2.4.1 Device Based on Cd Compound // 3.2.4.2 Device Based on Pb Compound // 3.2.4.3 Device Based on CuInS23.2.5 Strategy for Improved Device Performance // 3.2.5.1 QDs Surface Treatment // 3.2.5.2 In-Situ Synthesis of QDs // 3.2.5.3 Polymer End-Group Functionalization // 3.3 Outlooks and Conclusions // Acknowledgment // References // 4 Hole Transporting Layers in Printable Solar Cells // 4.1 Introduction // 4.2 Hole Transporting Layers in Organic Solar Cells // 4.2.1 Utility of Hole Transporting Layers // 4.2.1.1 Energy Level Alignment at the Interfaces and Effect on the Open-Circuit Voltage // 4.2.1.2 Definition of Device Polarity, Charge Transport and Use as Blocking Layer

(OCoLC)974796268