Last edited by Gagis
Tuesday, July 14, 2020 | History

4 edition of Thin Films Material Technology found in the catalog.

Thin Films Material Technology

Sputtering of Compound Materials

by Kiyotaka Wasa

  • 128 Want to read
  • 38 Currently reading

Published by Springer .
Written in English

    Subjects:
  • Semi-conductors & super-conductors,
  • Electricity,
  • Electronics - Microelectronics,
  • Industrial Technology,
  • Sputtering Systems,
  • Structural Control,
  • Technology / Material Science,
  • Thin Films,
  • Technology & Industrial Arts

  • The Physical Object
    FormatHardcover
    Number of Pages518
    ID Numbers
    Open LibraryOL12773057M
    ISBN 103540211187
    ISBN 109783540211181

    HISTORY OF THIN FILMS Nucleation and Growth of Thin Films () Remark: the book of B. Lewis, J.C. Anderson is a comprehensive rewiev of the results on the elementary processes of structure formation revealed partly by in situ TEM experiments. Important aspect of technology: evolution of the material structure. ZnO Thin Films. Compound Oxide Thin Films. Nitrides, Carbides, Silicates, Selenides. Amorphous Thin Films. Miscellaneous. References. Part III: Sputtering Technology for Nanomaterials and Thin Film MEMS. 7. Ferroelectric Thin Films. Ferroelectric Thin Film Materials. Control of Thin Film Structure. Nanometer.

    During the last many decades the methods of forming thin films materials have increased significantly. In general, thin film is a small thickness that Author: Dler Jameel. A thin film is a layer of material ranging from fractions of a nanometer to several micrometers in thickness. The controlled synthesis of materials as thin films (a process referred to as deposition) is a fundamental step in many applications. A familiar example is the household mirror, which typically has a thin metal coating on the back of a sheet of glass to form a .

    Thin Film Materials - by L. B. Freund January The existence of residual stress in films deposited on substrates and the effects of such stress on delamination and cracking were recognized as early as the nineteenth century.   Thin film mechanical behavior and stress presents a technological challenge for materials scientists, physicists and engineers. This book provides a comprehensive coverage of the major issues and topics dealing with stress, defect formation, surface evolution and allied effects in thin film materials. Physical phenomena are examined from the continuum down to Reviews: 1.


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Thin Films Material Technology by Kiyotaka Wasa Download PDF EPUB FB2

Wasa brings to this book over 40 years experience in the fields of radiation damage, gas discharge, plasma, cathodic sputtering and thin film technology with Matsushita Electric, Ltd. and Yokohama City University. A Ph.D.

from Osaka University, his honors in surface science include awards from Japan and the United by: 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.

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 film, a key technology for nano-materials in high-speed information applications and large.

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 Book Edition: 1.

The book brings together materials and mechanics aspects of thin films effortlessly, reflecting the authors' expertise in joining these fields of science and engineering.' Professor William D. Nix, Stanford University 'I would heartily recommend this book as an essential read for anyone working in any area of thin film deposition.' Materials WorldCited by: It is more than an introductory text, yet still remains accessible to the unfamiliar reader.

Even though it was published almost 10 years ago I have yet to encounter an out-of-date piece of information, and despite the issuing of a new edition of Ohring's text ('Materials Science of Thin Films') this book is definitely still the better of the by: Gall has been a Visiting Scientist at the Frederick Seitz Materials Research Laboratory, Illinois, has served as Assistant Editor and Editorial Board Member for Thin Solid Films, and as Associate Editor for the Journal of Vacuum Science and Technology A.

He is the chair-elect of the AVS Advanced Surface Engineering Division /5(6). Ohring has contributed many highly regarded reference books to the AP list, including Reliability and Failure of Electronic Materials and the Engineering Science of Thin Films.

The knowledge base is intended for science and engineering students in advanced undergraduate or first-year graduate level courses on thin films and scientists and engineers who are entering or require.

The Handbook of Thin Film Deposition is a comprehensive reference focusing on thin film technologies and applications used in the semiconductor industry and the closely related areas of thin film deposition, thin film micro properties, photovoltaic solar energy applications, new materials for memory applications and methods for thin film optical processes.

In a major. Introduction to Thin Film Technology Literatures 1. Ohring, "The materials science of thin films" (Academic Press ).

Kern et al., „Basic Mechanisms in the early stages of epitaxy“ in Current Topics in Materials Science, vol 3, series Editor E. Kaldis, p 3. IFF-Ferienkurs „Dünne Schichten“, März 4. Thin film mechanical behavior and stress presents a technological challenge for materials scientists, physicists and engineers.

This book provides a comprehensive coverage of the major issues and topics dealing with stress, defect formation, surface evolution and allied effects in thin film by: technology for integrated circuit manufacture as practiced today were named for the majority of the processing steps, the technology could probably be more accurately described as thin-film technology.

Consistent with this change, the processing for the deposition and patterning of films has received major research and engineering emphasis.

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.

In the last 25 years, tremendous advances have been made in the science and technology of thin films prepared by means of CVD. This book presents in a single volume, an up-to-date overview of the important field of CVD processes which has.

Thin film technology is a broad branch of generic technology that has to do with surface modifications and coatings. In the surface modification process, the properties of the surface of the substrate material are changed.

In the process that involves the application of a coating, the substrate material. “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. This is the first book that can be considered a textbook on thin film science, complete with exercises at the end of each chapter. Ohring has contributed many highly regarded reference books to the AP list, including Reliability and Failure of Electronic Materials and the Engineering Science of Thin knowledge base is intended for science and engineering students.

This is the first available textbook to provide comprehensive coverage of the science and technology of thin films and coatings. Developed for upper-level undergraduate and beginning graduate students, the book discusses physical and chemical vapor deposition processes; phenomena involving nucleation and growth, stress, diffusion and reaction; structural and 2/5(2).

The importance of thin films in optics was first recognised in the 17th century by Hooke, Newton and others. In Newton described observations of colours in thin films of transparent material and from geometrical considerations was able to calculate effective film thickness and correlate this with the periodicity of observed colours.

Thin films play a key role in the material science of microelectronics, and the subject matter of thin-films divides naturally into two headings: processing / structure relationship, and structure / properties first volume of Materials Science in Microelectronics focuses on the first relationship – that between processing and the structure of the thin-film.

Thin films have a great impact on the modern era of technology. Thin films are considered as backbone for advanced applications in the various fields such as optical devices, environmental applications, telecommunications devices, energy storage devices, and so on.

The crucial issue for all applications of thin films depends on their morphology and the by: 4. It presents basic principles, processes techniques and applications of thin films. As thin films physics and technology is a multidisciplinary field, the book will be useful to a wide varity of readers (especially young researcher) in physics, electronic engineering, material science and metallurgy.

Contents: Deposition Processes.Thin Films. A thin film is defined as a low-dimensional material created by condensing, one-by-one, atomic/molecular/ionic species of matter. From: Handbook of Sputtering Technology (Second Edition), Related terms: Solar Cell; Graphene; ZnO; Titanium Dioxide; Oxide; Nanoparticles; Film Thickness.