Introduction to Surface Engineering and Functionally Engineered Materials / Wiley-Scrivener (PDF)
(Sprache: Englisch)
This book provides a clear and understandable text for users and
developers of advanced engineered materials, particularly in the
area of thin films, and addresses fundamentals of modifying the
optical, electrical, photo-electric, triboligical, and...
developers of advanced engineered materials, particularly in the
area of thin films, and addresses fundamentals of modifying the
optical, electrical, photo-electric, triboligical, and...
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This book provides a clear and understandable text for users and
developers of advanced engineered materials, particularly in the
area of thin films, and addresses fundamentals of modifying the
optical, electrical, photo-electric, triboligical, and corrosion
resistance of solid surfaces and adding functionality to solids by
engineering their surface, structure, and electronic, magnetic and
optical structure. Thin film applications are emphasized. Through
the inclusion of multiple clear examples of the technologies, how
to use them,and the synthesis processes involved, the reader will
gain a deep understanding of the purpose, goals, and methodology of
surface engineering and engineered materials.
Virtually every advance in thin film, energy, medical,
tribological materials technologies has resulted from surface
engineering and engineered materials. Surface engineering involves
structures and compositions not found naturally in solids and is
used to modify the surface properties of solids and involves
application of thin film coatings, surface functionalization and
activation, and plasma treatment. Engineered materials are the
future of thin film technology. Engineered structures such as
superlattices, nanolaminates, nanotubes, nanocomposites, smart
materials, photonic bandgap materials, metamaterials, molecularly
doped polymers and structured materials all have the capacity to
expand and increase the functionality of thin films and coatings
used in a variety of applications and provide new applications. New
advanced deposition processes and hybrid processes are being used
and developed to deposit advanced thin film materials and
structures not possible with conventional techniques a decade ago.
Properties can now be engineered into thin films that achieve
performance not possible a decade ago.
developers of advanced engineered materials, particularly in the
area of thin films, and addresses fundamentals of modifying the
optical, electrical, photo-electric, triboligical, and corrosion
resistance of solid surfaces and adding functionality to solids by
engineering their surface, structure, and electronic, magnetic and
optical structure. Thin film applications are emphasized. Through
the inclusion of multiple clear examples of the technologies, how
to use them,and the synthesis processes involved, the reader will
gain a deep understanding of the purpose, goals, and methodology of
surface engineering and engineered materials.
Virtually every advance in thin film, energy, medical,
tribological materials technologies has resulted from surface
engineering and engineered materials. Surface engineering involves
structures and compositions not found naturally in solids and is
used to modify the surface properties of solids and involves
application of thin film coatings, surface functionalization and
activation, and plasma treatment. Engineered materials are the
future of thin film technology. Engineered structures such as
superlattices, nanolaminates, nanotubes, nanocomposites, smart
materials, photonic bandgap materials, metamaterials, molecularly
doped polymers and structured materials all have the capacity to
expand and increase the functionality of thin films and coatings
used in a variety of applications and provide new applications. New
advanced deposition processes and hybrid processes are being used
and developed to deposit advanced thin film materials and
structures not possible with conventional techniques a decade ago.
Properties can now be engineered into thin films that achieve
performance not possible a decade ago.
Inhaltsverzeichnis zu „Introduction to Surface Engineering and Functionally Engineered Materials / Wiley-Scrivener (PDF)“
1.0 Properties of Solid Surfaces. 1.1 Introduction. 1.2 Tribological Properties of Solid Surfaces. 1.3 Optical Properties of Solid Surfaces. 1.4 Electrical and Opto-electronic Properties of Solid Surfaces. 1.5 Corrosion of Solid Surfaces. 2.0 Thin Film Deposition Processes. 2.1 Physical Vapor Deposition. 2.2 Chemical Vapor Deposition. 2.3 Pulsed Laser Deposition. 2.4 Hybrid Deposition Processes. 3.0 Thin Film Structures and Defects. 3.1 Thin Film Nucleation and Growth. 3.2 Structure of Thin Films. 3.3 Thin Film Structure Zone Models. 4. Thin Film Tribological Materials. 4.1 Wear Resistant Thin Film Materials. 4.2 Ultrifunctional Nanostructured, Nanolaminate and Nanocomposite Triboligical Materials. 5. Optical Thin Films and Composites. 5.1 Optical Properties at an Interface. 5.2 Single Layer Optical Coatings. 5.3 Multilayer Thin Film Optical Coatings. 5.4 Color and Chromaticity in Thin Films. 5.5 Decorative and Architectural Coatings. 6.0 Fabrication Processes for Electrical and Electro-Optical Thin Films. 6.1 Plasma Processing: Introduction. 6.2 Etching Processes. 6.3 Wet Chemical Etching. 6.4 Metallization. 6.5 Photolithography. 6.6 Deposition Process for Piezoelectric and Ferroelectric Thin Films. 6.7 Deposition Processes for Semiconductor Thin Films. 7.0 Functionally Engineered Materials. 7.1 Energy Band Structure of Solids. 7.2 Low Dimensional Structures. 7.3 Energy Band Engineering. 7.4 Artificially Structured and Sculpted Micro and NanoStructures. 8.0 Multifunctional Surface Engineering Applications. 8.1 Thin Film Photovoltaics. 8.2 Transparent Conductive Oxide Thin Films. 8.3 Electrochromic and Thermochromic Coatings. 8.4 Thin Film Permeation barriers. 8.5 Photocatalytic Thin Films and Low Dimensional Structures. 8.6 Frequency selective surfaces. 9.0 Looking into the Future: Bio-Inspired Materials and Surfaces. 9.1 Functional Biomaterials. 9.2 Functional Biomaterials: Self Cleaning Biological Materials. 9.3 Functional Biomaterials: Self Healing Biological
... mehr
Materials. 9.4 Self Assembled and Composite Nanostructures. 9.5 Introduction to Biophotonics. 9.6 Advanced Biophotonics Applications.
... weniger
Autoren-Porträt von Peter Martin
Peter Martin worked at Battelle, Pacific NorthwestLaboratory (BNW) for over 29 years where he currently holds an
Emeritus Laboratory Fellow appointment, and specializes in
developing thin film coatings for energy, biomedical, space and
defense applications. He pioneered the use of reactive magnetron
sputtering technology to fabricate novel and advanced optical
coating materials and specializes in large area optical and thin
film coating development. He has also led development of high
performance large area ground-based and space-based laser mirrors
for DOD applications.
Dr. Martin has written over 400 technical publications. He has won
three R&D 100 Awards for his work in microfabrication and
barrier coatings for flat panel displays, has two FLC awards, was
awarded Battelle Technology of the Year (2003) for his work with
the photolytic artificial lung, and voted Distinguished Inventor
and PNNL 2005 Inventor of the Year. He has 26 US patents and
numerous foreign and pending patents. He also teaches short courses
on smart materials and energy materials and applications.
Bibliographische Angaben
- Autor: Peter Martin
- 2011, 1. Auflage, 584 Seiten, Englisch
- Verlag: John Wiley & Sons
- ISBN-10: 1118171861
- ISBN-13: 9781118171868
- Erscheinungsdatum: 26.09.2011
Abhängig von Bildschirmgröße und eingestellter Schriftgröße kann die Seitenzahl auf Ihrem Lesegerät variieren.
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