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Author: Subba Ramaiah Kodigala Publisher: Academic Press ISBN: 0080920322 Category : Science Languages : en Pages : 700
Book Description
Cu(In1-xGax)Se2 Based Thin Film Solar Cells provides valuable contents about the fabrication and characterization of chalcopyrite Cu(In1-xGax)Se2 based thin film solar cells and modules. The growth of chalcopyrite Cu(In1-xGax)(S1-ySey)2 absorbers, buffers, window layers, antireflection coatings, and finally metallic grids, which are the sole components of solar cells, is clearly illustrated. The absorber, which contains multiple elements, segregates secondary phases if the growth conditions are not well optimized i.e., the main drawback in the fabrication of solar cells. More importantly the solutions for the growth of thin films are given in detail. The properties of all the individual layers and single crystals including solar cells analyzed by different characterization techniques such as SEM, AFM, XPS, AES, TEM, XRD, optical, photoluminescence, and Raman spectroscopy are explicitly demonstrated. The electrical analyses such as conductivities, Hall mobilities, deep level transient spectroscopy measurements etc., provide a broad picture to understand thin films or single crystals and their solar cells. The book clearly explains the working principle of energy conversion from solar to electrical with basic sciences for the chalcopyrite based thin film solar cells. Also, it demonstrates important criteria on how to enhance efficiency of the solar cells and modules. The effect of environmental factors such as temperature, humidity, aging etc., on the devices is mentioned by citing several examples. Illustrates a number of growth techniques to prepare thin film layers for solar cells Discusses characterization techniques such as XRD, TEM, XPS, AFM, SEM, PL, CL, Optical measurements, and Electrical measurements Includes I-V, C-V measurements illustrations Provides analysis of solar cell efficiency Presents current trends in thin film solar cells research and marketing
Author: Jef Poortmans Publisher: John Wiley & Sons ISBN: 0470091266 Category : Science Languages : en Pages : 504
Book Description
Thin-film solar cells are either emerging or about to emerge from the research laboratory to become commercially available devices finding practical various applications. Currently no textbook outlining the basic theoretical background, methods of fabrication and applications currently exist. Thus, this book aims to present for the first time an in-depth overview of this topic covering a broad range of thin-film solar cell technologies including both organic and inorganic materials, presented in a systematic fashion, by the scientific leaders in the respective domains. It covers a broad range of related topics, from physical principles to design, fabrication, characterization, and applications of novel photovoltaic devices.
Author: Keshavanand Jayadevan Publisher: ISBN: Category : Languages : en Pages :
Book Description
A novel 2SSS (2 Step Solid Selenization) CIGS (Cu, In, Ga, Se) thin film solar cell recipe was developed which can be a replacement to the conventional co-deposition process usually employed for large-scale manufacturing. The co-deposition procedure is faced with multiple problems such as selenium incorporation, effective gallium incorporation in the absorber. It is a 2-step proprietary procedure with better control over growth mechanisms and material utilization for the absorber layer for the CIGS thin film solar cells. It makes use of solid selenium source as preferred by manufacturers. Each step of the 2-step procedure was dealt with separately for stoichiometric analysis and interesting trade-offs between materials such as gallium, indium and selenium was found. Solar cells with this proprietary absorber were fabricated on soda lime glass substrates. Results of the solar cells made with the 2SSS process matched with that of the co-deposition process with the quantum efficiencies near 80% of the co-deposition cells. These experiments are going to serve as the test bed for the pilot line that is intended to be installed at USF's research campus soon. The finished solar cells were characterized. The scanning electron microscope (SEM), energy dispersive spectroscopy (EDS) and X-ray diffraction (XRD) were some of the important tools during the analysis of stoichiometry and structural properties. The device performances were measured with the help of current-voltage (I-V) testing and quantum efficiency (QE) measurements.
Author: I M Dharmadasa Publisher: CRC Press ISBN: 9814316075 Category : Science Languages : en Pages : 252
Book Description
This book concentrates on the latest developments in our understanding of solid-state device physics. The material presented is mainly experimental and based on CdTe thin-film solar cells. It extends these new findings to CIGS thin-film solar cells and presents a new device design based on graded bandgap multilayer solar cells. This design has been experimentally tested using the well-researched GaAs/AlGaAs system and initial devices have shown impressive device parameters. These devices are capable of absorbing all radiation (UV, visible, and infra-red) within the solar spectrum and combines "impact ionization" and "impurity photovoltaic" effects. The improved device understanding presented in this book should impact and guide future device design and low-cost thin-film solar panel manufacture.
Author: Tullio Tolio Publisher: Springer ISBN: 3319943588 Category : Technology & Engineering Languages : en Pages : 494
Book Description
This book is open access under a CC BY 4.0 license.This book presents results relevant in the manufacturing research field, that are mainly aimed at closing the gap between the academic investigation and the industrial application, in collaboration with manufacturing companies. Several hardware and software prototypes represent the key outcome of the scientific contributions that can be grouped into five main areas, representing different perspectives of the factory domain:1) Evolutionary and reconfigurable factories to cope with dynamic production contexts characterized by evolving demand and technologies, products and processes.2) Factories for sustainable production, asking for energy efficiency, low environmental impact products and processes, new de-production logics, sustainable logistics.3) Factories for the People who need new kinds of interactions between production processes, machines, and human beings to offer a more comfortable and stimulating working environment.4) Factories for customized products that will be more and more tailored to the final user’s needs and sold at cost-effective prices.5) High performance factories to yield the due production while minimizing the inefficiencies caused by failures, management problems, maintenance.This books is primarily targeted to academic researchers and industrial practitioners in the manufacturing domain.
Author: Benjamin D. Weil Publisher: ISBN: Category : Languages : en Pages :
Book Description
CIGS is currently the highest efficiency chalcogenide absorber, with a record cell efficiency of 20.3%. One of the main challenges of CIGS manufacturing is reducing costs and scaling up manufacturing. The use of toxic elements (Se, Te, Cd) and rare earth elements (In, Te) further complicates the materials processing. The development of non-toxic, earth abundant materials to replace these technologies is underway. Furthermore, there is a need to develop scalable and high-throughput manufacturing techniques that could reduce costs and improve manufacturing of chalcogenide solar cells. Solution-based deposition techniques are widely considered to be a route to low-cost, high-throughput photovoltaic device fabrication. Nanoparticle based inks are one means of achieving low-cost and high-throughput solution-processed devices. I study the properties of CuInS2 nanoparticles and their application to solar cell fabrication. I also establish a methodology for a highly scalable deposition process and report the synthesis of an air-stable, vulcanized ink from commercially available precursors. Using this air-stable solution process, solar cells are made with an absorber layer that is flat, contaminant-free, and composed of large-grained CuInS2. I demonstrate an initial power efficiency of 2.15%. To address the challenge of reducing elemental toxicity and the use of rare elements in chalcogenide solar cells, I will discuss some alternative absorbers that don't contain Indium, Cadmium, Tellurium, or Selenium. I demonstrate a 2.2% Cu2SnS3/CdS solar cell using rapid thermal processing and address the challenges facing this material to improve efficiency.
Author: Boubakeur Ayachi Publisher: ISBN: Category : Languages : en Pages : 0
Book Description
Nowadays, and after more than four decades of research and development of the CIS based technology, a direct competition with silicon technology is still far from being won; however there exists some niche markets where the silicon technology cannot be used (flexible photovoltaic) or less favourable (BIPV). The current fabrication processes are still suffering from some drawbacks: (i) some of the used materials and/or techniques have a large environmental footprint (CBD-CdS/CBD-ZnSxO1-x), (ii) some developed alternatives are expensive (evaporated InxSy), (iii) the used techniques are not easily up scalable (evaporation) or based on the use of toxic atmospheres (Se based). This PhD work presents our strategy in moving towards a full sputtering process and in using only environmentally friendly materials. In this framework, we kept using standard material and process for the deposition of the back contact layer. We developed a new process for the deposition of the absorber layer which is based on pulsed DC-magnetron sputtering at room temperature from a single quaternary target without any additional selenium supply, followed by an annealing under inert atmosphere. We developed a room temperature sputtering process for the deposition of the ZnSxO1-x buffer layer. We also developed our appropriate pulsed DC and RF sputtering processes for the deposition of the window layer. Several characterisation techniques (XRD, SEM, FIB-SEM, EDX, Raman, SIMS, Hall Effect, GDOES, UV-Vis, and I-V) have been used to investigate the effect of deposition conditions on thin films properties as well as to characterize the final solar cells which best efficiency result is slightly under 12%.
Author: Parvin Ghane
Author: Parvin Ghane
Author: Subba Ramaiah Kodigala
Author: Jef Poortmans
Author: Keshavanand Jayadevan
Author: I M Dharmadasa
Author: Tullio Tolio
Author: IEEE Staff
Author: Benjamin D. Weil
Author: Boubakeur Ayachi
Author: Joel P. Freyenhagen (CAPT, USAF.)