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|a 1536158593
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|a 9781536158595
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|a (OCoLC)1119635446
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|a 621.31/244
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|a UAMI
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|a Banavoth, Murali.
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|a Perovskite Solar Cells
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|a New York :
|b Nova Science Publishers, Incorporated,
|c 2019.
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|a 1 online resource (368 pages)
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|a text
|b txt
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|a computer
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|2 rdamedia
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|a online resource
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|a Renewable Energy: Research, Development and Policies Ser.
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|a Print version record.
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|a Intro; Contents; Introduction; Acronyms; Chapter 1; Hybrid Organo-Inorganic Perovskite Solar Cells: Architecture Evolution, Materials of Functional Layers, Photoelectric Characteristics, Properties, and Efficiency; Abstract; 1. Introduction; 2. The Architecture of Hybrid Organo-Inorganic Perovskite Solar Cells; 2.1. Architecture with Bulk Heterojunction; 2.2. Planar Architecture; 2.3. The Architecture with One Selective Conducting Buffer Layer; 2.4. Fully Mesoscopic Architecture without a Hole Carrier; 2.5. Tandem Organic-Inorganic Perovskite Photovoltaic Systems
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|a 3. Materials and Formation Methods of the Main Functional Layers of Hybrid Organo-Inorganic Perovskite Solar Cells3.1. Hybrid Organo-Inorganic Perovskite Absorbers; 3.2. Buffer Layers of Hybrid Organo-Inorganic Solar Cells; 3.2.1. Electron-Conducting Buffer Layers (Anodes); 3.2.2. Hole-Conducting Buffer Layers (Cathodes); 3.2.2.1. Organic and Polymeric P-Type Conducting Materials; 3.2.2.2. Inorganic P-Type Conducting Materials; 3.2.2.2.1. Hole-Conducting Materials Based on Copper (I) Iodide (Cui) and Copper (I) Thiocyanate (Cuscn); 3.2.2.2.2. Iodide of Copper (I) (CuI)
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|a 3.2.2.2.3. The Copper (I) Thiocyanate (CuSCN)3.2.2.2.4. Methods for Obtaining CuI and CuSCN Thin Films; Spin-Coating Application; Vacuum Methods of Application; Method of Molecular Layering; 3.2.2.2.5. Hole-Conducting Materials Based on Copper (I) and (II) Oxide (Cu2O and CuO); 3.2.2.2.6. Hole-Conducting Materials Based on Nickel Oxide (NiO); 3.2.2.2.7. Hole-Conducting Materials Based on Molybdenum (VI) Oxide (MoO3); 3.2.2.2.8. Hole-Conducting Materials Based on Vanadium Oxide (VOx); 3.3. Selection of Materials of Buffer Layers and Ohmic Contacts
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|a 4. Electronic Processes, Photoelectric Characteristics and Stability of Hybrid Organo-Inorganic Perovskite Solar Cells4.1. Parameters and Characteristics of Solar Cells; 4.2. Electronic Processes in Hybrid Organic-Inorganic Perovskite Solar Cells; 4.2.1. Principles of Photoelectric Conversion in Semiconductor Heterostructures and Analysis of Real Achievable Photoelectric Conversion Results in Perovskite Systems; 4.3. Efficiency of Hybrid Organic-Inorganic Perovskite Solar Cells; 4.4. Stability and Photoelectric Hysteresis; Conclusion; References; Chapter 2
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|a Mechanisms of Radiation-Induced Degradation of Hybrid Perovskites Based Solar Cells and Ways to Increase Their Radiation ToleranceAbstract; 1. Introduction; 2. General Methodology of Radiation Physics; 3. Mechanisms of Degradation Under the Effect of Solar Radiation; 4. Mechanism of Degradation under the Action of High Energy Particles (A Special Role of an Organic Molecule); 5. Features of Radiation Degradation of SCs with Fractal Interfaces; 6. Degradation Macroeffects in Perovskites; 6.1. Radiation-Stimulated Diffusion; 6.2. Quasi-Chemical Reactions; 6.3. Radiation Annealing
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|a 7. The Hoke Effect in Hybrid Perovskites
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| 590 |
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|a eBooks on EBSCOhost
|b EBSCO eBook Subscription Academic Collection - Worldwide
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|a Perovskite solar cells.
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|i Print version:
|a Banavoth, Murali.
|t Perovskite Solar Cells: Properties, Application and Efficiency.
|d New York : Nova Science Publishers, Incorporated, ©2019
|z 9781536158588
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| 830 |
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|a Renewable Energy: Research, Development and Policies Ser.
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