Defect and Impurity Engineered Semiconductors and Devices: Volume 378
Title | Defect and Impurity Engineered Semiconductors and Devices: Volume 378 PDF eBook |
Author | I. Akasaki |
Publisher | Materials Research Society |
Pages | 0 |
Release | 1995-10-16 |
Genre | Technology & Engineering |
ISBN | 9781558992818 |
Defect engineering has come of age. That theme is well documented by both the academic and industrial research communities in this book from MRS. Going beyond defect control, the book explores the engineering of desired properties in semiconductor materials and devices through the deliberate introduction and manipulation of defects and impurities. Papers are grouped around ten distinct topics covering materials, processing and devices. Topics include: grown-in defects in bulk crystals; grown-in defects in thin films; gettering and related phenomena; hydrogen interaction with semiconductors; defect issues in widegap semiconductors; defect characterization; ion implantation and process-induced defects; defects in devices; interfaces, quantum wells and superlattices; and defect properties, reaction, activation and passivation.
Symposium Proceedings Defect and Impurity Engineered Semiconductors and Devices Held in San Francisco, California on 17-21 April 1995
Title | Symposium Proceedings Defect and Impurity Engineered Semiconductors and Devices Held in San Francisco, California on 17-21 April 1995 PDF eBook |
Author | |
Publisher | |
Pages | 1052 |
Release | 1996 |
Genre | |
ISBN |
This volume results from a symposium held at the 1995 MRS Spring Meeting, April 17-21, in San Francisco. The symposium, bearing the title of this volume, followed upon a highly successful earlier symposium entitled 'Defect Engineering in Semiconductor Growth. Processing and Device Technology, ' held at the 1992 MRS Spring Meeting. The intent of the present symposium was to go beyond defect control and explore deliberate introduction and manipulation of defects and impurities in order to engineer some desired properties in semiconductor materials and devices. The response from the academic and industrial research communities was overwhelming, with over 280 abstracts submitted from around the world. The theme of defect engineering has clearly come of age. p2.
Defect and Impurity Engineered Semiconductors and Devices: Proceedings of the Materials Research Society Symposium, 17-21 April 1995, San Francisco, California
Title | Defect and Impurity Engineered Semiconductors and Devices: Proceedings of the Materials Research Society Symposium, 17-21 April 1995, San Francisco, California PDF eBook |
Author | |
Publisher | |
Pages | 0 |
Release | 1995 |
Genre | |
ISBN |
Defect and Impurity Engineered Semiconductors and Devices III: Volume 719
Title | Defect and Impurity Engineered Semiconductors and Devices III: Volume 719 PDF eBook |
Author | S. Ashok |
Publisher | |
Pages | 522 |
Release | 2002-08-09 |
Genre | Technology & Engineering |
ISBN |
This book focuses on the deliberate introduction and manipulation of defects and impurities in order to engineer desired properties in semiconductor materials and devices. In view of current exciting developments in wide-bandgap semiconductors like GaN for blue light emission, as well as high-speed and high-temperature electronics, dopant and defect issues relevant to these materials are addressed. Also featured are semiconductor nanocavities and nano-structures, with emphasis on the formation and impact of vacancy-type defects. Defect reaction problems pertaining to impurity gettering, precipitation and hydrogen passivation are specific examples of defect engineering that improve the electronic quality of the material. A number of papers also deal with characterization techniques needed to study and to identify defects in materials and device structures. Finally, papers also address issues such as interface control and passivation, application of ion implantation, plasma treatment and rapid thermal processing for creating/activating/suppressing trap levels, and device applications.
Defect and Impurity Engineered Semiconductors and Devices
Title | Defect and Impurity Engineered Semiconductors and Devices PDF eBook |
Author | |
Publisher | |
Pages | 0 |
Release | 1998 |
Genre | Semiconductors |
ISBN |
Defect Interaction and Clustering in Semiconductors
Title | Defect Interaction and Clustering in Semiconductors PDF eBook |
Author | Sergio Pizzini |
Publisher | Scitec Publications |
Pages | 440 |
Release | 2002 |
Genre | Science |
ISBN |
Modern semiconductor devices rely upon precise defect engineering. On the one hand: defects are the components needed to generate the electronic architecture of the device. On the other hand: they may - if not carefully controlled- induce failure of that device. During the past fifty years, the electrical and optical properties of defects, their generation, transport, clustering and reactions between them have been investigated intensively. Yet the development of semiconductor technology remains closely connected to the advances made in defect science and engineering. Compared to metals, defect control in silicon is significantly complicated by the open structure of its lattice. As a result, reactions between defects, even at room temperature, have become a central issue in defect engineering.
Defect and Impurity Engineered Semiconductors II: Volume 510
Title | Defect and Impurity Engineered Semiconductors II: Volume 510 PDF eBook |
Author | S. Ashok |
Publisher | Cambridge University Press |
Pages | 0 |
Release | 1998-09-14 |
Genre | Technology & Engineering |
ISBN | 9781558994164 |
The evolution of semiconductor devices of progressively higher performance has generally followed improved material quality with ever fewer defect concentrations. However, a shift in focus over the years has brought the realization that complete elimination of defects in semiconductors during growth and processing is neither desirable nor necessary. It is expected that the future role of defects in semiconductors will be one of control - in density, properties, spatial location, and perhaps even temporal variation during the operating lifetime of the device. This book explores the effective use of defect control at various facets of technology and widely different semiconductor materials systems. Topics include: grown-in defects in bulk crystals; doping issues; grown-in defects in thin films; doping and defect issues in wide-gap semiconductors; process-induced defects and gettering; defect properties, reactions, activation and passivation; ion implantation and irradiation effects; defects in devices and interfaces; plasma processing; defect characterization; and interfaces, quantum wells and superlattices.