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Artificially Induced Grain Alignment in Thin Films: Volume 1150
Paperback / softback
Main Details
| Title |
Artificially Induced Grain Alignment in Thin Films: Volume 1150
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| Authors and Contributors |
Edited by Vladimir Matias
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Edited by Ruben Huhne
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Edited by Seung-Hyun Moon
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Edited by Robert Hammond
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| Series | MRS Proceedings |
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| Physical Properties |
| Format:Paperback / softback | | Pages:210 | | Dimensions(mm): Height 229,Width 152 |
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| Category/Genre | Materials science |
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| ISBN/Barcode |
9781107408357
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| Classifications | Dewey:621.38152 |
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| Audience | | Postgraduate, Research & Scholarly | | Professional & Vocational | |
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Publishing Details |
| Publisher |
Cambridge University Press
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| Imprint |
Cambridge University Press
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| Publication Date |
5 June 2014 |
| Publication Country |
United Kingdom
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Description
Thin-film growth is a very old art and an established scientific field in materials science. For decades, growth of monocrystal-like films has been practiced by making use of epitaxy on monocrystalline substrates. In the quest for greater control of materials, the next level of achievement will be to grow well-oriented thin films on arbitrary substrates, i.e., without the need for monocrystalline substrates. That is the goal of artificially inducing grain alignment in thin films. Texturing methods show significant promise in fabricating technologically attractive grain-aligned films. However, over the last three decades a variety of methods for grain alignment have been demonstrated with varying degrees of success. The focus of this book is on physical vapor deposition methods for growth of inorganic thin films, with special attention paid to ion beam assisted deposition (IBAD) texturing. Topics include: milestones in IBAD texturing; IBAD texturing; IBAD long-length application and texturing by other techniques.
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