Materials Science of Thin Films 3e
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Materials Science of Thin Films 3e

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Description

Materials Science of Thin Films: Deposition and Structure, Third Edition, carries on the tradition of this intriguing series, offering the most comprehensive coverage of materials science and technology related to thin films and coatings of any book in the field. The authors' engaging style brings new coverage to a variety of important topics within the field, including the latest, and most important, deposition techniques, atomic layer deposition and high impulse magnetron sputtering, and new, or expanded, coverage of recent developments in thin films technology, such as filtered cathodic arcs, nanorod growth by the vapor-liquid-solid process, carbon nanotubes, new quantitative kinetic nucleation models, atomic-level growth classifications, bi-textured layers, surface morphological evolution models, and competitive grain growth. * Provides the most comprehensive coverage of materials science and technology related to thin films and coatings of any book in the field* Updated to include coverage of the latest and most important deposition techniques, including atomic layer deposition and high impulse magnetron sputtering* Includes new or expanded coverage of recent developments in thin films technology, such as filtered cathodic arcs, nanorod growth by the vapor-liquid-solid process, carbon nanotubes, new quantitative kinetic nucleation models, atomic-level growth classifications, and more* Carries on the tradition of this intriguing series, offering the latest information on the subject mattershow more

Product details

  • Paperback | 864 pages
  • 190.5 x 234.95 x 69mm | 1,824g
  • Elsevier Science Publishing Co Inc
  • Academic Press Inc
  • San Diego, United States
  • English
  • 3rd edition
  • 0128498935
  • 9780128498934

About Milton Ohring

Dr. Milton Ohring, author of two previously acclaimed Academic Press books,The Materials Science of Thin Films (l992) and Engineering Materials Science (1995), has taught courses on reliability and failure in electronics at Bell Laboratories (AT&T and Lucent Technologies). From this perspective and the well-written tutorial style of the book, the reader will gain a deeper physical understanding of failure mechanisms in electronic materials and devices; acquire skills in the mathematical handling of reliability data; and better appreciate future technology trends and the reliability issues they raise. After an undergraduate degree in Music and a brief career as a professional musician and music teacher, Shefford P. Baker studied Mechanical Engineering and Materials Science. He received his PhD in Materials Science and Engineering at Stanford University in 1993, was a staff scientist at the Max-Planck-Institut f r Metallforschung in Stuttgart from 1993 to 1997 and joined the Cornell faculty in 1998. He was Visiting Professor at the Facult des Sciences et Techniques de Saint J rome, Universit Paul C zanne, Marseille, in summer 2006. Professor Baker's research focuses on the unique mechanical properties of materials having microstructural or dimensional length scales in the nanometer regime. At Cornell Baker is interested in undergraduate engineering education and served as the Director of Undergraduate Studies for the Department of Materials Science and Engineering from 2004 through 2010. He also chaired the College of Engineering Curriculum Task Force that examined the Engineering Common Curriculum in 2006. He is very active in the Materials Research Society, and served as President of the MRS in 2009. He has also served as Symposium Organizer, Meeting Chair, Committee Chair, and was a member of the Board of Directors for serveral years. He helped to form the Nanoscale Informal Science Education (NISE) network and has participated in a wide range of science and materials education related projects. Professor Baker teaches courses that focus on the mechanical properties of materials, thin films, microstructure of materials, and metallurgy.show more

Table of contents

A Historical Perspective Introduction to Thin Films 1. A Review of Materials Science 2. Vacuum Science and Technology 3. Thin-Film Evaporation Processes 4. Discharges, Plasmas, and Ion-Surface Interactions 5. Plasma and Ion Beam Processing of Thin Films 6. Chemical Vapor Deposition 7. Substrate Surfaces and Thin-Film Nucleation 8. Epitaxy 9. Film Structure 10. Characterization of Thin Films and Surfaces 11. Interdiffusion, Reactions, and Transformations in Thin Films 12. Mechanical Properties of Thin Filmsshow more