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This volume reviews the state of the art of thin film diamond, a very promising new semiconductor that may one day rival silicon as the material of choice for electronics. Diamond has the following important characteristics; it is resistant to radiation damage, chemically inert and biocompatible and it will become "the material" for bio-electronics, in-vivo applications, radiation detectors and high-frequency devices. Thin-Film Diamond is the first book to summarize state of the art of CVD diamond in depth. It covers the most recent results regarding growth and structural properties, doping and defect characterization, hydrogen in and on diamond as well as surface properties in general, applications of diamond in electrochemistry, as detectors, and in surface acoustic wave devices. · Accessible by both experts and non-experts in the field of semi-conductors research and technology, each chapter is written in a tutorial format· Helping engineers to manufacture devices with optimized electronic properties· Truly international, this volume contains chapters written by recognized experts representing academic and industrial institutions from Europe, Japan and the US
This work, written by leading international authorities, deals with nucleation growth and processing, characterization and electrical, thermal, optical and mechanical properties of thin film diamond. The final chapters are devoted to the broad range of applications of this material.
Part II reviews the state of the art of thin film diamond a very promising new semiconductor that may one day rival silicon as the material of choice for electronics. Diamond has the following important characteristics; it is resistant to radiation damage, chemically inert and biocompatible and it will become "the material" for bio-electronics, in-vivo applications, radiation detectors and high-frequency devices. Thin-Film Diamond II is the first book to summarize state of the art of CVD diamond in depth. It covers the most recent results regarding growth and structural properties, doping and defect characterization, hydrogen in and on diamond as well as surface properties in general, applications of diamond in electrochemistry, as detectors, and in surface acoustic wave devices * Accessible by both experts and non-experts in the field of semi-conductors research and technology, each chapter is written in a tutorial format· * Assisting engineers to manufacture devices with optimized electronic properties· * Truly international, this volume contains chapters written by recognized experts representing academic and industrial institutions from Europe, Japan and the US
This volume reviews the state of the art of thin film diamond, a very promising new semiconductor that may one day rival silicon as the material of choice for electronics. Diamond has the following important characteristics; it is resistant to radiation damage, chemically inert and biocompatible and it will become "the material" for bio-electronics, in-vivo applications, radiation detectors and high-frequency devices. Thin-Film Diamond is the first book to summarize state of the art of CVD diamond in depth. It covers the most recent results regarding growth and structural properties, doping and defect characterization, hydrogen in and on diamond as well as surface properties in general, applications of diamond in electrochemistry, as detectors, and in surface acoustic wave devices. · Accessible by both experts and non-experts in the field of semi-conductors research and technology, each chapter is written in a tutorial format · Helping engineers to manufacture devices with optimized electronic properties · Truly international, this volume contains chapters written by recognized experts representing academic and industrial institutions from Europe, Japan and the US
It is now over thirty years since a method was first described for the pyrolysis of hydrocarbons to form thin film diamond. We are now entering a new phase, in which potential applications of this unique material are driving improved understanding of diamond synthesis, better control of both phase purity and structural perfection, and engineering advances that will reduce the cost and increase the deposition rate. In this highly competitive area, researchers from many countries have contributed to our knowledge base, and there are several established international conferences concentrating on diamond thin films. This book brings together some of the key components in what is an exciting scientific and technical challenge: to establish diamond as an engineering material that will revolutionise operations in optics, mechanics and electronics. The sequence of papers in the book moves from fundamental studies of the deposition process, the surface structure of diamond and its stability, and the nucleation of diamond on a foreign substrate, through the current capacity for achieving epitaxial quality films, to the characterisation of diamond quality. The final section describes some of the variety of applications, and their requirements, that are being introduced to potential users.
This volume brings together some of the key components in what is an exciting scientific and technical challenge: to establish diamond as an engineering material that will revolutionise operations in optics, mechanics and electronics. The collection of papers gives a "snapshot" of a rapidly developing subject. It should attract comments and thoughts from those that have not previously considered thin-film diamond to be a maturing subject, as well as being stimulating to all of them already working in the area.
Diamond, as well as being a precious gem, is a versatile material par excellence. No other material comes anywhere near to matching its properties, which are both extreme, and also expressed in rare combinations. However, natural diamonds, and those synthesised under high sandpressure temperatures, are too expensive or small for many technological applications. These limitations can be overcome by using large-area diamond coatings; chemically bonded to inexpensive non-diamond surfaces. The consequent economic advantages provide the driving force for much diamond-related research and technology.
This volume reviews the state of the art of thin film diamond, a very promising new semiconductor that may one day rival silicon as the material of choice for electronics. Diamond has the following important characteristics; it is resistant to radiation damage, chemically inert and biocompatible and it will become "the material" for bio-electronics, in-vivo applications, radiation detectors and high-frequency devices. Thin-Film Diamond is the first book to summarize state of the art of CVD diamond in depth. It covers the most recent results regarding growth and structural properties, doping and defect characterization, hydrogen in and on diamond as well as surface properties in general, applications of diamond in electrochemistry, as detectors, and in surface acoustic wave devices. · Accessible by both experts and non-experts in the field of semi-conductors research and technology, each chapter is written in a tutorial format · Helping engineers to manufacture devices with optimized electronic properties · Truly international, this volume contains chapters written by recognized experts representing academic and industrial institutions from Europe, Japan and the US