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"This Proceedings Volume includes papers that were presented at the Eighth Symposium on High Purity Silicon held in Honolulu, Hawaii at the 206th Meeting of the Electrochemical Society, October 3-8, 2004"--Pref.
This issue discusses the latest developments in the growth, characterization, device processing and applications of high-purity silicon in either bulk or epitaxial form. Information is given on the control and prevention of impurity incorporation, characterization and detection of defects and impurity states. Device and circuit aspects are also covered. Advanced substrates such as SOI, strained Si and germanium-on-insulator are discussed.
The papers included in this issue of ECS Transactions were originally presented in the symposium ¿High Purity Silicon 11¿, held during the 218th meeting of The Electrochemical Society, in Las Vegas, Nevada from October 10 to 15, 2010.
The issue of the 10th High Purity Silicon symposium provides an overview of the latest developments in the growth, characterization, devices processing, and application of high purity silicon in either bulk or epitaxial form. The emphasis is on the control and prevention of impurity incorporation, characterization and detection of defects and impurity states in high purity and high resistivity silicon for superior device performances. Device and circuit aspects related to the application of devices fabricated on high resistivity silicon wafers will also be addressed. Special attention will be given to alternative and high-mobility substrates and their material and device aspects.
"... papers that were presented at the Sixth Symposium on High Purity Silicon held in Phoenix, Arizona at the 198th Meeting of the Electrochemical Society, October 22-27, 2000."--Preface.
Today, the silicon feedstock for photovoltaic cells comes from processes which were originally developed for the microelectronic industry. It covers almost 90% of the photovoltaic market, with mass production volume at least one order of magnitude larger than those devoted to microelectronics. However, it is hard to imagine that this kind of feedstock (extremely pure but heavily penalized by its high energy cost) could remain the only source of silicon for a photovoltaic market which is in continuous expansion, and which has a cumulative growth rate in excess of 30% in the last few years. Even though reports suggest that the silicon share will slowly decrease in the next twenty years, finding a way to manufacture a specific solar grade feedstock in large quantities, at a low cost while maintaining the quality needed, still remains a crucial issue. Thin film and quantum confinement-based silicon cells might be a complementary solution. Advanced Silicon Materials for Photovoltaic Applications has been designed to describe the full potentialities of silicon as a multipurpose material and covers: Physical, chemical and structural properties of silicon Production routes including the promise of low cost feedstock for PV applications Defect engineering and the role of impurities and defects Characterization techniques, and advanced analytical techniques for metallic and non-metallic impurities Thin film silicon and thin film solar cells Innovative quantum effects, and 3rd generation solar cells With contributions from internationally recognized authorities, this book gives a comprehensive analysis of the state-of-the-art of process technologies and material properties, essential for anyone interested in the application and development of photovoltaics.
This was the tenth symposium of the International Symposium on Silcon Material Science and Technology, going back to 1969. This issue provides a unique historical record of the program and will aid in the understanding of silicon materials over the last 35 years.