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E-Book

E-Book, Englisch, 264 Seiten, E-Book

Wolf Atmospheric Pressure Plasma for Surface Modification


1. Auflage 2012
ISBN: 978-1-118-54755-7
Verlag: John Wiley & Sons
Format: EPUB
 Kopierschutz: Adobe DRM (»Systemvoraussetzungen)

E-Book, Englisch, 264 Seiten, E-Book

ISBN: 978-1-118-54755-7
Verlag: John Wiley & Sons
Format: EPUB
 Kopierschutz: Adobe DRM (»Systemvoraussetzungen)

This Book's focus and intent is to impart an understandingof the practical application of atmospheric plasma for theadvancement of a wide range of current and emerging technologies.The primary key feature of this book is the introduction of overthirteen years of practical experimental evidence of successfulsurface modifications by atmospheric plasma methods. It offers ahandbook-based approach for leveraging and optimizing atmosphericplasma technologies which are currently in commercial use. It alsooffers a complete treatment of both basic plasma physics andindustrial plasma processing with the intention of becoming aprimary reference for students and professionals.
The reader will learn the mechanisms which control and operateatmospheric plasma technologies and how these technologies can beleveraged to develop in-line continuous processing of a widevariety of substrates. Readers will gain an understanding ofspecific surface modification effects by atmospheric plasmas, andhow to best characterize those modifications to optimize surfacecleaning and functionalization for adhesion promotion.
The book also features a series of chapters written to addresspractical surface modification effects of atmospheric plasmaswithin specific application markets, and a commercially-focusedassessment of those effects.

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Autoren/Hrsg.

Wolf, Rory A.

Weitere Infos & Material

Preface xi
1. Plasma - The Fourth State of Matter 1
1.1 Fundamentals of Plasmas 1
1.2 Thermal vs. Nonthermal Plasmas 6
1.3 Mechanisms for Surfaces Reactions 22
2. Plasmas for Surface Modification 27
2.1 Low-Pressure Plasmas 28
2.2 Microwave Systems 31
2.3 Physical Vapor Deposition Systems 33
2.4 Atmospheric Plasma Systems 42
2.5 Atmospheric Plasma Precursor Deposition Systems 51
3. Atmospheric Plasma Surface Modification Effects 55
3.1 Surface Cleaning 56
3.2 Surface Etching 63
3.3 Surface Functionalization 66
3.4 Grafting and Surface Polymerization Effects 75
4. Characterization Methods of Atmospheric Plasma SurfaceModifications 81
4.1 Surface Characterization Techniques 81
4.2 X-Ray Photoelectron Spectroscopy (XPS) 82
4.3 Static Secondary Ion Mass Spectrometry by Time-of-Flight(TOF-SIMS) 86
4.4 Atomic Force Microscopy 89
4.5 Scanning Electron Microscopy (TEM) 97
4.7 Visual Methodologies 98
5. Atmospheric Plasma Modification of Roll-to-Roll PolymericSurfaces 109
5.1 Material Classifications and Applications 110
5.2 Atmospheric Plasma Processing Surface Effects 116
5.3 Assessments of Surface Modification Effects 117
6. Atmospheric Plasma Modification of Three-DimensionalPolymeric Surfaces 121
6.1 Material Classifications and Applications 125
6.2 Atmospheric Plasma Processing Surface Effects 129
6.3 Assessments of Surface Modification Effects 135
7. Atmospheric Plasma Modification of Textile Surfaces139
7.1 Material Classifications and Applications 141
7.2 Atmospheric Plasma Processing Surface Effects 145
7.3 Assessments of Surface Modification Effects 151
8. Atmospheric Plasma Modification of Paper Surfaces155
8.1 Material Classifications and Applications 157
8.2 Atmospheric Plasma Processing Surface Effects 162
8.3 Assessments of Surface Modification Effects 164
9. Atmospheric Plasma Modification of Metal Surfaces167
9.1 Material Classifications and Applications 168
9.2 Atmospheric Plasma Processing Surface Effects 173
9.3 Assessments of Surface Modification Effects 177
10. Atmospheric Plasma Surface Antimicrobial Effects181
10.1 Antimicrobial Surface Effects 183
10.2 Inactivation and Sterilization Methods - Medical187
10.3 Inactivation and Sterilization Methods - Food 189
11. Economic and Ecological Considerations 195
11.1 Operating Cost Comparison of Atmospheric Plasma Systems196
11.2 Environmental/Sustainable Advantages 201
12. Emerging and Future Atmospheric Plasma Applications205
12.1 Solar and Other Alternative Energy Systems 205
12.2 Energy Storage Technologies 211
12.3 Aviation and Aerospace Applications 215
12.4 Electronic Device Fabrication 216
12.5 Air Purification Applications 220
12.6 Medical Engineering 221
13. Economic and Environmental Assessment 225
13.1 Goal and Scope 226
13.2 Functional Units 227
13.3 System Boundaries 230
13.4 Data Documentation 232
13.5 Lifecycle Interpretation 233

Rory Wolf is the Vice President and Technology Directorat Enercon Industries Corporation, Menomonee Falls, Wisconsin, USA,and a recognized industry resource in the field of polymer surfacemodification. He has twenty-eight years of experience withininternational positions in the plastics and packaging industries,and specific experience in polymer-based flexible packaging,polymer surface modification systems, and printing industrysegments. He has published thirty technical papers, thirty-nineindustry articles, and two books on the topic of plastic surfacemodification by atmospheric plasma technology.

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