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The report comprises a detailed description of the materials, techniques and problems in each of the three major areas of thin film applications--dielectrics, magnetics and semiconductors. Included in the report are also basic theories necessary for a complete understanding of the physical and chemical processes related to the areas of interest. Theoretical analysis leads to a description of the critical physical, chemical and structural requirements of films for device applications. The state of the art of all aspects of ceramic thin film technology is critically reviewed, and recommendations are suggested to overcome existing limitations.
“Handbook of Thin Film Technology” covers all aspects of coatings preparation, characterization and applications. Different deposition techniques based on vacuum and plasma processes are presented. Methods of surface and thin film analysis including coating thickness, structural, optical, electrical, mechanical and magnetic properties of films are detailed described. The several applications of thin coatings and a special chapter focusing on nanoparticle-based films can be found in this handbook. A complete reference for students and professionals interested in the science and technology of thin films.
An invaluable resource for industrial science and engineering newcomers to sputter deposition technology in thin film production applications, this book is rich in coverage of both historical developments and the newest experimental and technological information about ceramic thin films, a key technology for nano-materials in high-speed information applications and large-area functional coating such as automotive or decorative painting of plastic parts, among other topics. In seven concise chapters, the book thoroughly reviews basic thin film technology and deposition processes, sputtering processes, structural control of compound thin films, and microfabrication by sputtering.
This book, entitled Thin Films on Glass, is one of a series reporting on research and development activities on products and processes conducted by the Schott Group. The scientifically founded development of new products and technical pro cesses has traditionally been of vital importance to Schott and has always been performed on a scale determined by the prospects for application of our special glasses. Since the reconstruction of the Schott Glaswerke in Mainz, the scale has increased enormously. The range of expert knowledge required could never have been supplied by Schott alone. It is also a tradition in our company to cultivate collaboration with customers, universities, and research institutes. Publications in numerous technical journals, which since 1969 we have edited to a regular schedule as Forschungsberichte - 'research reports' - describe the results of these cooperations. They contain up-to-date infor mation on various topics for the expert but are not suited as survey material for those whose standpoint is more remote. This is the point where we would like to place our series, to stimulate the exchange of thoughts, so that we can consider from different points of view the possibilities offered by those incredibly versatile materials, glass and glass ceramics. We would like to share the knowledge won through our research and development at Schott in cooperation with the users of our materials with scientists and engineers, interested customers and friends, and with the employees of our firm.
Functional Thin Films Technology features the functional aspects of thin films, such as their application in solar selective absorbers, fiber lasers, solid oxide fuel cells, piezo-related areas, catalysts, superhydrophobicity, semiconductors, and trace pesticides detection. It highlights developments and advances in the preparation, characterization, and applications of functional micro-/nano-scaled films and coatings. This book Presents technologies aimed at functionality used in nanoelectronics, solar selective absorbers, solid oxide fuel cells, piezo-applications, and sensors Covers absorbers, catalysts, anodic aluminum oxide, superhydrophobics, and semiconductor devices Features a chapter on transport phenomena associated to structures Discusses transport phenomena and material informatics This second volume in the two-volume set, Protective Thin Coatings and Functional Thin Films Technology, will benefit industry professionals and researchers working in areas related to semiconductors, optoelectronics, plasma technology, solid-state energy storages, and 5G, as well as advanced students studying electrical, mechanical, chemical, and materials engineering.
The literature so far has reviewed only single-crystal and, up to some extent, optical ceramic scintillators. This book introduces and describes in detail the research and development in thin film scintillators, glass ceramics, as well as nanocomposite and optical ceramics prepared by spark plasma sintering. It also features example of an in-depth study of a ZnO-based powder phosphor material. Both technology description and various characterization aspects are provided together with application hints. No other book has been published so far that includes and reviews the scintillator materials covered in this book with their specific technologies. Moreover, technological description is merged with detailed characterization, and the application potential is discussed as well. This book is intended for a wide audience, including postgraduate and PhD students and scientists working in the field of scintillators and phosphors. The extended introductory text, which has a textbook character, will be of immense benefit to students and non-specialists, too.
Electroceramic thin films hold out the promise of applications in entirely new generations of advanced microdevices that may revolutionise technology, creating multibillion dollar markets in the process. Less glamorous than the high-temperature superconductors, but probably just as important, are electrically conductive, ferroelectric, piezoelectric, pyroelectric, electro-optic, and magnetic films. The list of potential applications of films having these properties is virtually endless, but there are still some issues to be resolved before fully functioning devices reach the market. All these issues and more are discussed in Science and Technology of Electroceramic Thin Films, which provides one of the best, most up to date summaries of the field currently available.
This book is a comprehensive overview of the major important areas of ceramic thin films and coatings. Twenty-one widely respected researchers survey the range of applications of ceramic films and coatings and the techniques used to prepare and characterize them. The book is directed toward potential users of the technology and will also provide a broad update for experts in the field. Ceramic films and coatings are active fields of research and widely used areas of technology. The relatively high hardness and inertness of ceramic materials make ceramic coatings of interest for protection of substrate materials against corrosion, oxidation and wear resistance. The electronic and optical properties of ceramics make these films and coatings important to many electronic and optical devices. The book presents a series of reviews of many of the most active and technically important areas of ceramic films and coatings. It is introduced by an overview of the uses and methods of preparation of ceramic films and coatings. Topics then surveyed include synthetic diamond thin films, high T(subscript c) superconducting films, sol-gel films, protective films for cutting tools, optical films, and electronic films. Also covered are recent advances in improving wear resistance by ion implantation, in providing corrosion resistance by enameling, and in providing thermal protection with plasma sprayed coatings. Major characterization techniques and their capabilities and limitations are also treated.
The most comprehensive source available on the preparation, characterization, and emerging applications of thin film. This book features extensive new advances applied in multichip modules (MCMs), and covers the basic principles and applications of thin film deposition techniques for practical use. It provides and develops design guidelines to realize multilayer structures in microcircuits, thus addressing a critical and rapidly growing area.