The book provides an in-depth and lucid presentation of the subject matter in an elegant, easy-to-understand writing style, starting from basic knowledge through principles of operation and fabrication of devices to advanced research level encompassing the recent breakthroughs and cutting-edge innovations.
The book provides an in-depth and lucid presentation of the subject matter in an elegant, easy-to-understand writing style, starting from basic knowledge through principles of operation and fabrication of devices to advanced research level encompassing the recent breakthroughs and cutting-edge innovations.
Vinod Kumar Khanna is an independent researcher at Chandigarh, India. He received the Ph.D. degree in physics from Kurukshetra University, Kurukshetra, India in 1988. He is a Retired Chief Scientist and Head, MEMS & Microsensors Group, from the CSIR-Central Electronics Engineering Research Institute, Pilani, India, and a Professor with the Academy of Scientific and Innovative Research, Ghaziabad, India. He is a former Emeritus Scientist, CSIR and Emeritus Professor, AcSIR. He has worked at CSIR-CEERI for more than 37 years on the design, fabrication and characterization of power semiconductor devices and micro/nanoelectronic sensors. He has authored 18 books and six chapters in edited books. He has authored/coauthored 194 research papers in refereed journals and conference proceedings. He also has five patents to his name.
Inhaltsangabe
1. Solar Cell Basics. 2. Nanotechnology Fundamentals. 3. Nanocystalline Silicon-Based Solar Cells. 4. Nanotextured Surface Solar Cells. 5. Plasmonic-Enhanced Solar Cells. 6. Optically Improved Nanoengineered Solar Cells. 7. Dye-Sensitized Solar Cells. 8. 2D Perovskite and 2D/3D Multidimensional Perovskite Solar Cells. 9. Carbonaceous Nanomaterials-Based Solar Cells. 10. Quantum Well Solar Cells: Particle-in-a-Box Model and Bandgap Engineering. 11. Quantum-Well Solar Cells: Material Systems and Fabrications. 12. Nanowire Solar Cells: Configurations. 13. Nanowire Solar Cells: Fabrication. 14. Quantum Dot Solar Cells: Bandgap and Multicarrier Effects. Chapter 15. Quantum Dot Solar Cells: Types of Cells and Their Fabrication. Index.
1. Solar Cell Basics. 2. Nanotechnology Fundamentals. 3. Nanocystalline Silicon-Based Solar Cells. 4. Nanotextured Surface Solar Cells. 5. Plasmonic-Enhanced Solar Cells. 6. Optically Improved Nanoengineered Solar Cells. 7. Dye-Sensitized Solar Cells. 8. 2D Perovskite and 2D/3D Multidimensional Perovskite Solar Cells. 9. Carbonaceous Nanomaterials-Based Solar Cells. 10. Quantum Well Solar Cells: Particle-in-a-Box Model and Bandgap Engineering. 11. Quantum-Well Solar Cells: Material Systems and Fabrications. 12. Nanowire Solar Cells: Configurations. 13. Nanowire Solar Cells: Fabrication. 14. Quantum Dot Solar Cells: Bandgap and Multicarrier Effects. Chapter 15. Quantum Dot Solar Cells: Types of Cells and Their Fabrication. Index.
1. Solar Cell Basics. 2. Nanotechnology Fundamentals. 3. Nanocystalline Silicon-Based Solar Cells. 4. Nanotextured Surface Solar Cells. 5. Plasmonic-Enhanced Solar Cells. 6. Optically Improved Nanoengineered Solar Cells. 7. Dye-Sensitized Solar Cells. 8. 2D Perovskite and 2D/3D Multidimensional Perovskite Solar Cells. 9. Carbonaceous Nanomaterials-Based Solar Cells. 10. Quantum Well Solar Cells: Particle-in-a-Box Model and Bandgap Engineering. 11. Quantum-Well Solar Cells: Material Systems and Fabrications. 12. Nanowire Solar Cells: Configurations. 13. Nanowire Solar Cells: Fabrication. 14. Quantum Dot Solar Cells: Bandgap and Multicarrier Effects. Chapter 15. Quantum Dot Solar Cells: Types of Cells and Their Fabrication. Index.
1. Solar Cell Basics. 2. Nanotechnology Fundamentals. 3. Nanocystalline Silicon-Based Solar Cells. 4. Nanotextured Surface Solar Cells. 5. Plasmonic-Enhanced Solar Cells. 6. Optically Improved Nanoengineered Solar Cells. 7. Dye-Sensitized Solar Cells. 8. 2D Perovskite and 2D/3D Multidimensional Perovskite Solar Cells. 9. Carbonaceous Nanomaterials-Based Solar Cells. 10. Quantum Well Solar Cells: Particle-in-a-Box Model and Bandgap Engineering. 11. Quantum-Well Solar Cells: Material Systems and Fabrications. 12. Nanowire Solar Cells: Configurations. 13. Nanowire Solar Cells: Fabrication. 14. Quantum Dot Solar Cells: Bandgap and Multicarrier Effects. Chapter 15. Quantum Dot Solar Cells: Types of Cells and Their Fabrication. Index.
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