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" Technology and Applications of Amorphous Silicon "
edited by Robert A. Street.
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BL
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| Record Number
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577857
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b407076
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| Main Entry
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Street, Robert A.
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| Title & Author
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Technology and Applications of Amorphous Silicon\ edited by Robert A. Street.
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| Publication Statement
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Berlin, Heidelberg :: Springer Berlin Heidelberg :: Imprint: Springer,, 2000.
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| Series Statement
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Springer Series in Materials Science,; 37
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| ISBN
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9783662041413
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: 9783642084997
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| Contents
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1 Introduction -- 2 Active-Matrix Liquid-Crystal Displays -- 3 Laser Crystallization for Polycrystalline Silicon Device Applications -- 4 Large Area Image Sensor Arrays -- 5 Novel Processing Technology for Macroelectronics -- 6 Multijunction Solar Cells and Modules -- 7 Multilayer Color Detectors -- 8 Thin Film Position Sensitive Detectors: From 1D to 3D Applications -- Symbols and Abbreviations.
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| Abstract
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Amorphous silicon has become the material of choice for large area electronics, with major applications in displays, image sensing and solar power conversion. The technology development has occurred because amorphous silicon is a thin film semiconductor that can be deposited on large, low cost substrates. Furthermore, it retains the material properties of silicon, and can therefore be patterned into complex electronic devices using the same photolithographic techniques that have proved so powerful for crystalline silicon electronics. The book describes the devices, arrays and applications enabled by amorphous silicon, and how the unique properties of the material determines the design and performance of the various applications. Active-matrix liquid crystal displays for high performance laptop computers are a major business, and have established the array manufacturing technology. Digital X-ray image sensors are poised to revolutionize medical diagnosis by replacing film with flat-plate amorphous silicon arrays. Solar cells are the most mature application of amorphous silicon, and many innovations to enhance the cell efficiency have been introduced. Future opportunities for improved materials, novel processing techniques and new sensor applications are also described.
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Engineering.
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Electronics.
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Optical materials.
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Surfaces (Physics).
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SpringerLink (Online service)
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