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Full Description
Silicon. The evolution and development of humanity are commonly charac terized by the key words Stone Age, Bronze Age, and Iron Age; that is, characterized by materials. Curse or benefit to mankind? The discovery and utilization of semiconductors, particularly of silicon, revolutionized our liv ing conditions, society, social life, and maxims in a few years, even more than what happened during all the material-specified periods before. Per haps, one day, our descendants will call the period at whose beginning we live the Silicon Age. However, to be correct, the present period is character ized of the discovery and development of a whole bunch of new materials and their utilization. These materials are new alloys, ceramics, the plastics and synthetics produced by organic chemistry, composites, biomaterials, and the materials of microelectronics, nanotechnology, and space science. The materi als of microelectronics are silicon, other elemental semiconductors, compound semiconductors, and organic semiconductors. With regard to the interdepen dences of these materials and their utilization, silicon plays a central role as one of the base materials for electronics. Have we lived in the Silicon Age for only half a century and already jumped into a new age of synthetic organic materials for electronics? We do not know. The first intensive work on silicon started more than 50 years ago. One of the European semiconductor laboratories was installed by the industry in a centuries-old, little countryside castle in Pretzfeld, in the north-east of Bavaria, Germany.
Contents
1 Introduction: Silicon in All Its Forms.- 2 Silicon: the Semiconductor Material.- 3 Silicon: an Industrial Adventure.- 4 Polycrystalline Silicon Films for Electronic Devices.- 5 Silicon for Photovoltaics.- 6 Films by Molecular-Beam Epitaxy.- 7 Amorphous Hydrogenated Silicon, a-Si:H.- 8 Silicon-on-Insulator and Porous Silicon.- 9 Defect Spectroscopy.- 10 Silicon and Its Vital Role in The Evolution of Scanning Probe Microscopy.- 11 Defects, Diffusion, Ion Implantation, Recrystallization, and Dielectrics.- 12 Neutron Transmutation Doping (NTD) of Silicon.- 13 Transition Metal Impurities in Silicon.- 14 Hydrogen.- 15 Power Semiconductor Devices.- 16 Compensation Devices Break the Limit Line of Silicon.- 17 Integrated Circuits.- 18 Silicon Nanoelectronics: the Next 20 Years.- 19 Lithography for Silicon Nanotechnology.- 20 Silicon Sensors.- 21 Supplementing Silicon: the Compound Semiconductors.- 22 Quantum Computation by Electron Spin in SiGe Heterostructures.- 23 Carbon Nanotube Applications in Microelectronics.- 24 Creating Systems for Ambient Intelligence.- 25 Semiconductors with Brain.
