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Książki na temat „Solar cells- Light absorption”

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Data publikacji: 6 września 2023

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1

United States. National Aeronautics and Space Administration., red. Enhancing optical absorption in InP and GaAs utilizing profile etching. [Washington, DC]: National Aeronautics and Space Administration, 1991.

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2

Luque, Antonio, i Alexander Virgil Mellor. Photon Absorption Models in Nanostructured Semiconductor Solar Cells and Devices. Cham: Springer International Publishing, 2015. http://dx.doi.org/10.1007/978-3-319-14538-9.

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3

K, Dutta S., i Saha H, red. Texturization and light trapping in silicon solar cells. New York: Nova Science Publishers, 2009.

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4

Solanki, Chetan Singh, i Hemant Kumar Singh. Anti-reflection and Light Trapping in c-Si Solar Cells. Singapore: Springer Singapore, 2017. http://dx.doi.org/10.1007/978-981-10-4771-8.

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5

W, Kerslake Thomas, Scheiman David A i NASA Glenn Research Center, red. Analysis of direct solar illumination on the backside of space station solar cells. [Cleveland, Ohio]: National Aeronautics and Space Administration, Glenn Research Center, 1999.

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Williams, Michael D. Influence of refractive index and solar concentration on optical power absorption in slabs. Hampton, Va: Langley Research Center, 1988.

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7

Li, Jinmin. Solid state lighting and solar energy technologies: 12-14 November 2007, Beijing, China. Redaktorzy Society of Photo-optical Instrumentation Engineers, Zhongguo guang xue xue hui, Nihon Kōgakkai (Ōyō Butsuri Gakkai), Zhongguo ke xue ji shu xie hui, Guo jia zi ran ke xue ji jin wei yuan hui (China) i China. Guo jia ke xue ji shu bu. Bellingham, Wash: SPIE, 2008.

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8

Principles of solar cells, LEDs, and diodes: The role of the PN junction. Chichester, West Sussex, U.K: Wiley, 2011.

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9

Photonics, and Optoelectronics Meetings (2009 Wuhan China). Photonics and Optoelectronics Meetings (POEM) 2009: Solar cells, solid state lighting, and information display technologies : 8-10 August 2009, Wuhan, China. Bellingham, Wash: SPIE, 2009.

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10

Larsen, A. Nylandsted. Production of solar cells on the basis of low cost silicon by application of ion implantation and light-induced transient heating. Luxembourg: Commission of the European Communities, 1985.

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11

United States. National Aeronautics and Space Administration., red. Investigation of the basic physics of high efficiency semiconductor hot carrier solar cell: Annual status report for NASA grant #NAG 3-1490. [Washington, DC: National Aeronautics and Space Administration, 1995.

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Photonics and Optoelectronics Meetings (2009 Wuhan, China). Photonics and Optoelectronics Meetings (POEM) 2009: Solar cells, solid state lighting, and information display technologies : 8-10 August 2009, Wuhan, China. Redaktorzy Grätzel Michael, SPIE (Society), Wuhan dian guang guo jia shi yan shi, Zhongguo guang xue xue hui i China Jiao yu bu. Bellingham, Wash: SPIE, 2009.

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13

Jeon, Heonsu. Display, solid-state lighting, photovoltaics, and optoelectronics in energy II: 8-12 December 2010, Shanghai, China. Redaktorzy SPIE (Society), IEEE Photonics Society i Fu dan da xue (Shanghai, China). Bellingham, Wash: SPIE, 2010.

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14

Jeon, Heonsu. Display, solid-state lighting, photovoltaics, and optoelectronics in energy: 2-6 November 2009, Shanghai, China. Redaktorzy Optical Society of America, SPIE (Society) i Asia Communications and Photonics (2009 : Shanghai, China). Bellingham, Wash: SPIE, 2009.

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15

Solar Cells and Light Management. Elsevier, 2020. http://dx.doi.org/10.1016/c2017-0-04229-5.

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16

Luque, Antonio, i Alexander Virgil Mellor. Photon Absorption Models in Nanostructured Semiconductor Solar Cells and Devices. Springer, 2015.

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17

Luque, Antonio, i Alexander Virgil Mellor. Photon Absorption Models in Nanostructured Semiconductor Solar Cells and Devices. Springer, 2015.

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18

Solanki, Chetan Singh, i Hemant Kumar Singh. Anti-reflection and Light Trapping in c-Si Solar Cells. Springer, 2017.

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19

Solanki, Chetan Singh, i Hemant Kumar Singh. Anti-Reflection and Light Trapping in C-Si Solar Cells. Springer Singapore Pte. Limited, 2018.

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20

Fonash, Stephen. Introduction to Light Trapping in Solar Cell and Photo-Detector Devices. Elsevier Science & Technology Books, 2014.

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21

Light Trapping In Solar Cell And Photodetector Devices. Elsevier Science Publishing Co Inc, 2014.

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22

Liu, Baiquan, Swee Tiam Tan, Xuyong Yang i Qifan Xue, red. Advanced Nanomaterials for Light-Emitting Diodes and Solar Cells. Frontiers Media SA, 2021. http://dx.doi.org/10.3389/978-2-88971-401-8.

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23

Advanced Nanomaterials for Solar Cells and Light Emitting Diodes. Elsevier, 2019. http://dx.doi.org/10.1016/c2017-0-00025-3.

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Gao, Feng. Advanced Nanomaterials for Solar Cells and Light Emitting Diodes. Elsevier, 2019.

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25

Enrichi, Francesco, i Giancarlo Righini. Solar Cells and Light Management: Materials, Strategies and Sustainability. Elsevier, 2019.

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Gao, Feng. Advanced Nanomaterials for Solar Cells and Light Emitting Diodes. Elsevier, 2019.

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27

Righini, Giancarlo C., i Francesco Enrichi. Solar Cells and Light Management: Materials, Strategies and Sustainability. Elsevier, 2019.

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28

Park, Nam-Gyu, i Hiroshi Segawa. Multifunctional Organic-Inorganic Halide Perovskite: Applications in Solar Cells, Light-Emitting Diodes, and Resistive Memory. Jenny Stanford Publishing, 2022.

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Park, Nam-Gyu, i Hiroshi Segawa. Multifunctional Organic-Inorganic Halide Perovskite: Applications in Solar Cells, Light-Emitting Diodes, and Resistive Memory. Jenny Stanford Publishing, 2022.

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30

Park, Nam-Gyu, i Hiroshi Segawa. Multifunctional Organic-Inorganic Halide Perovskite: Applications in Solar Cells, Light-Emitting Diodes, and Resistive Memory. Jenny Stanford Publishing, 2022.

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31

Improvement in suppression of pulsed Nd: YAG laser light with iodine absorption cells for filtered Rayleigh scattering measurements. [Cleveland, Ohio]: National Aeronautics and Space Administration, Lewis Research Center, 1997.

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32

Light, Water, Hydrogen: The Solar Generation of Hydrogen by Water Photoelectrolysis. Springer, 2007.

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33

Wolf, E. L. Solar Thermal Energy. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198769804.003.0009.

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The Sun’s spectrum on Earth is modified by the atmosphere, and is harvested either by generating heat for direct use or for running heat engines, or by quantum absorption in solar cells, to be discussed later. Focusing of sunlight requires tracking of the Sun and is defeated on cloudy days. Heat engines have efficiency limits similar to the Carnot cycle limit. The steam turbine follows the Rankine cycle and is well developed in technology, optimally using a re-heat cycle of higher efficiency. Having learned quite a bit about how the Sun’s energy is created, and how that process might be reproduced on Earth, we turn now to methods for harvesting the energy from the Sun as a sustainable replacement for fossil fuel energy.
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34

Wolf, E. L. Solar Cell Physics and Technologies. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198769804.003.0010.

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Solar cells are based on semiconductor pn junctions. Absorption of sunlight is optimal at bandgap energies near one electron volt, and greatly increases the reverse current density. The efficiency of the cell is described by the “filling factor”, and is limited, for single junction cells, by the Quiesser–Shockley limit, near 30 percent. Tandem cells, series combinations of cells, absorb a larger portion of the solar spectrum with higher efficiency but with greater complexity and cost. Such cells are used with focusing optics that inherently raises the efficiency, but also the complexity and cost. This is a textbook for physics, chemistry and engineering students interested in the future of energy as impacted by depletion of fossil fuels, and in the effects of fossil fuel burning on climate.
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35

Launay, Jean-Pierre, i Michel Verdaguer. The excited electron: photophysical properties. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198814597.003.0004.

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After a review of fundamental notions such as absorption, emission and the properties of excited states, the chapter introduces excited-state electron transfer. Several examples are given, using molecules to realize photodiodes, light emitting diodes, photovoltaic cells, and even harnessing photochemical energy for water photolysis. The specificities of ultrafast electron transfer are outlined. Energy transfer is then defined, starting from its theoretical description, and showing its involvement in photonic wires or molecular assemblies realizing an antenna effect for light harvesting. Photomagnetic effects; that is, the modification of magnetic properties after a photonic excitation, are then studied. The examples are taken from systems presenting a spin cross-over, with the LIESST effect, and from systems presenting metal–metal charge transfer, in particular in Prussian Blue analogues and their molecular version.
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36

Quantum Dots - Properties and Applications. Materials Research Forum LLC, 2021. http://dx.doi.org/10.21741/9781644901250.

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The book provides a thorough survey of current research in quantum dots synthesis, properties, and applications. The unique properties of these new nanomaterials offer multifunctional applications in such fields as photovoltaics, light-emitting diodes, field-effect transistors, lasers, photodetectors, solar cells, biomedical diagnostics and quantum computing.
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37

Forrest, Stephen R. Organic Electronics. Oxford University Press, 2020. http://dx.doi.org/10.1093/oso/9780198529729.001.0001.

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Organic electronics is a platform for very low cost and high performance optoelectronic and electronic devices that cover large areas, are lightweight, and can be both flexible and conformable to irregularly shaped surfaces such as foldable smart phones. Organics are at the core of the global organic light emitting device (OLED) display industry, and also having use in efficient lighting sources, solar cells, and thin film transistors useful in medical and a range of other sensing, memory and logic applications. This book introduces the theoretical foundations and practical realization of devices in organic electronics. It is a product of both one and two semester courses that have been taught over a period of more than two decades. The target audiences are students at all levels of graduate studies, highly motivated senior undergraduates, and practicing engineers and scientists. The book is divided into two sections. Part I, Foundations, lays down the fundamental principles of the field of organic electronics. It is assumed that the reader has an elementary knowledge of quantum mechanics, and electricity and magnetism. Background knowledge of organic chemistry is not required. Part II, Applications, focuses on organic electronic devices. It begins with a discussion of organic thin film deposition and patterning, followed by chapters on organic light emitters, detectors, and thin film transistors. The last chapter describes several devices and phenomena that are not covered in the previous chapters, since they lie outside of the current mainstream of the field, but are nevertheless important.
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38

Rai, Dibya Prakash, red. Advanced Materials and Nano Systems: Theory and Experiment - Part 2. BENTHAM SCIENCE PUBLISHERS, 2022. http://dx.doi.org/10.2174/97898150499611220201.

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The discovery of new materials and the manipulation of their exotic properties for device fabrication is crucial for advancing technology. Nanoscience, and the creation of nanomaterials have taken materials science and electronics to new heights for the benefit of mankind. Advanced Materials and Nanosystems: Theory and Experiment covers several topics of nanoscience research. The compiled chapters aim to update students, teachers, and scientists by highlighting modern developments in materials science theory and experiments. The significant role of new materials in future technology is also demonstrated. The book serves as a reference for curriculum development in technical institutions and research programs in the field of physics, chemistry and applied areas of science like materials science, chemical engineering and electronics. This part covers 12 topics in these areas: 1. Recent advancements in nanotechnology: a human health Perspective 2. An exploratory study on characteristics of SWIRL of AlGaAs/GaAs in advanced bio based nanotechnological systems 3. Electronic structure of the half-Heusler ScAuSn, LuAuSn and their superlattice 4. Recent trends in nanosystems 5. Improvement of performance of single and multicrystalline silicon solar cell using low-temperature surface passivation layer and antireflection coating 6. Advanced materials and nanosystems 7. Effect of nanostructure-materials on optical properties of some rare earth ions doped in silica matrix 8. Nd2Fe14B and SmCO5: a permanent magnet for magnetic data storage and data transfer technology 9. Visible light induced photocatalytic activity of MWCNTS decorated sulfide based nano photocatalysts 10. Organic solar cells 11. Neodymium doped lithium borosilicate glasses 12. Comprehensive quantum mechanical study of structural features, reactivity, molecular properties and wave function-based characteristics of capmatinib
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Vurgaftman, Igor, Matthew P. Lumb i Jerry R. Meyer. Bands and Photons in III-V Semiconductor Quantum Structures. Oxford University Press, 2020. http://dx.doi.org/10.1093/oso/9780198767275.001.0001.

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Semiconductor quantum structures are at the core of many photonic devices such as lasers, photodetectors, solar cells etc. To appreciate why they are such a good fit to these devices, we must understand the basic features of their band structure and how they interact with incident light. This book takes the reader from the very basics of III-V semiconductors (some preparation in quantum mechanics and electromagnetism is helpful) and shows how seemingly obscure results such as detailed forms of the Hamiltonian, optical transition strengths, and recombination mechanisms follow. The reader does not need to consult other references to fully understand the material, although a few handpicked sources are listed for those who would like to deepen their knowledge further. Connections to the properties of novel materials such as graphene and transition metal dichalcogenides are pointed out, to help prepare the reader for contributing at the forefront of research. The book also supplies a complete, up-to-date database of the band parameters that enter into the calculations, along with tables of optical constants and interpolation schemes for alloys. From these foundations, the book goes on to derive the characteristics of photonic semiconductor devices (with a focus on the mid-infrared) using the same principles of building all concepts from the ground up, explaining all derivations in detail, giving quantitative examples, and laying out dimensional arguments whenever they can help the reader’s understanding. A substantial fraction of the material in this book has not appeared in print anywhere else, including journal publications.
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