Books by Keyword: Gettering

Description: The book includes both fundamental and technological aspects of defects in semiconductor materials and devices, including photovoltaics.
Volume is indexed by Thomson Reuters CPCI-S (WoS).
The 74 papers are grouped as follows: I. Defect engineering in silicon solar cells; II. Structural and production issues in cast silicon materials for solar cells; III. Characterisation of silicon for solar cells; IV. Intrinsic point defects in silicon; V. Light impurities in silicon-based materials; VI. Metals in silicon: fundamental properties and gettering; VII. Extended and implantation-related defects in silicon; VIII. Surfaces, passivation and processing; IX. Germanium-based devices and materials; X. Semiconductors other than silicon and germanium; XI. Nanostructures and new materials systems.

Description: This collection aims to address the fundamental aspects, as well as the technological problems, which are associated with defects in electronic materials and devices.

Description: This eighth volume in the series covering the latest results in the field includes abstracts of papers which appeared between the publication of Annual Retrospective VII (Volumes 242-244) and the end of June 2006 (journal availability permitting).

Description: Volume is indexed by Thomson Reuters CPCI-S (WoS).
This proceedings volume contains 126 contributions from the 11th international meeting on Gettering and Defect Engineering in Semiconductor Technology GADEST 2005 held at “La Badine” at the Giens peninsula south of France.

Description: Volume is indexed by Thomson Reuters CPCI-S (WoS).
This volume is a collection of papers presented at the 10th International Autumn Meeting on "Gettering and Defect Engineering in Semiconductor Technology - GADEST 2003," which took place from the 21st to the 26th of September 2003 at the Seehotel Zeuthen, in the state of Brandenburg, Germany. The Seehotel Zeuthen, near Berlin, was an excellent location at which to provide a forum for interactions between scientists and engineers engaged in the field of semiconductor defect physics, materials science and technology; and to reflect upon aspects of the coming era of conversion from micro-electronics to nano-electronics. In addition, a particular ambition was to strengthen the interactions and exchanges between communities working in the fields of crystalline silicon for electronics and photovoltaics.

Description: Gettering and Defect Engineering in Semiconductor Technology are discussed here,with particular emphasis being placed on device applications. Fundamental aspects,as well as technological problems which are associated with defects in electronic materials and devices, are addressed.
Volume is indexed by Thomson Reuters CPCI-S (WoS).
The topics in this volume were selected on the basis that single-crystal Si, and Si-based, semiconductors will dominate microelectronics until far into the 21st century. The main reason for the overwhelming success of silicon technology is economic: the production cost per area increases by a factor of 5, or even 10, on going from 200 mm Si wafers to compound semiconductors or other substrate materials.

Description: Ever since the invention of the transistor, a fantastic and continual growth in silicon technology has been witnessed; leading to yet more complex functions and higher densities of devices. The current book summarises the key issues of this field.

Among other topics, the outlook for silicon wafer technology and silicon materials engineering in the next millennium is reviewed and new approaches to the production of a 200 GHz silicon-based devices are described. Possible applications of dislocation luminescence in silicon are discussed as well as the hopes for, and limitations of, the Si:Er - based 1.54 mm emitter. Various properties of silicon-based materials and heterojunctions are characterised by using novel and state-of-the-art measurement techniques. Hydrogen- and oxygen-related defects, rare-earth impurities as well as radiation and gettering effects are discussed from various points of view.

Description: Defect control relies more and more upon advanced fabrication approaches such as the use of slow pulling rates and hydrogen annealing. Gettering techniques remain of key importance in enhancing the device yield.

Description: The present volume covers many aspects of semiconductors, over the wide structural range from nano- to large-grained crystalline. Scientists working on polycrystalline semiconductors, with various chemistries, here review fundamental research, technology and applications.

Description: This book covers the physics and technology of polycrystalline semiconductors by presenting the work of scientists who are concerned with a variety of polycrystalline materials in research, technology, and application, with a view to bridge the gap between fundamental and technological aspects of polycrystalline semiconductors.