Unconventional Nanopatterning Techniques and Applications

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Bibliografische Daten
ISBN/EAN: 9780470099575
Sprache: Englisch
Umfang: 616 S.
Format (T/L/B): 3.2 x 24.2 x 16.1 cm
Auflage: 1. Auflage 2009
Einband: gebundenes Buch

Beschreibung

New nanopatterning techniques with realistic potential for widespread use This book helps readers learn the skills needed to fully leverage the most promising unconventional nanofabrication techniques. It focuses on soft lithographic and related imprint lithographic methods, but also features self-assembly approaches that have excellent potential. All the techniques covered have the scalability, throughput, and low cost operation needed for use in practical applications. Content is organized into two parts: * Part One, Nanopatterning Techniques, deals with the principles and underlying science of a variety of nanopatterning techniques. The first chapter covers the classes of materials and surface chemistries that are most commonly used for the stamps, molds, and conformable photomasks of soft lithography. Several chapters then review both established and new strategies for using them and their analogous hard elements in a broad range of procedures. Next, the authors demonstrate the power of self-assembly in procedures that rely on polymer phase separation. * Part Two, Applications, presents the applications of techniques discussed in Part One in some of the most promising areas, including optics, organic devices, electronic devices, biological devices, and fluidics. In addition to detailed explanations of the implementation of each application, these chapters also discuss the aspects related to practical applications. Each chapter has been written by one or more leading pioneers in the field of nanofabrication. References at the end of the chapter guide you to the primary literature for further information. Unconventional Nanopatterning Techniques and Applications offers practitioners, developers, and students the ability to not only implement the latest techniques, but also expand the capabilities and reach of these techniques with their own ideas and novel applications.

Autorenportrait

John A. Rogers, PhD, holds the Lee J. Flory-Founder Chair in the College of Engineering at the University of Illinois at Urbana-Champaign. He was selected as one of the Top 50 Research Leaders by Scientific American. Dr. Rogers has authored more than 200 papers and holds nearly sixty patents. Hong H. Lee, PhD, is a Professor in the School of Chemical and Biological Engineering at the Seoul National University, Korea. He is the author of more than 200 papers and two books.

Leseprobe

Leseprobe

Inhalt

PART I: NANOPATTERNING TECHNIQUES. Chapter 1: Introduction. Chapter 2: Materials. References. Chapter 3: Patterning Based on Natural Force. References. Chapter 4: Patterning Based on Work of Adhesion. References. Chapter 5: Patterning Based on Light: Optical Soft Lithography. References. Chapter 6: Patterning Based on External Force: Nanoimprint Lithography. References. Chapter 7: Patterning Based on Edge Effects: Edge Lithography. References. Chapter 8: Patterning with Electrolytes. References. Chapter 9: Patterning with Gels: Lattice-Gas Models. References. Chapter 10: Patterning with Block Copolymers. References. Chapter 11: Perspective on Applications. PART II: APPLICATIONS. Chapter 12: Soft Lithography for Microfluidic Microelectromechanical Systems (MEMS) and Optical Devices. References. Chapter 13: Unconventional Patterning Methods for Biomems. References. Chapter 14: Micro Total Analysis System. References. Chapter 15: Combinations of Top-Down and Bottom-Up Nanofabrication Techniques and Their Application to Create Functional Devices. References. Chapter 16: Organic Electronic Devices. References. Chapter 17: Inorganic Electronic Devices. References. Chapter 18: Mechanics of Stretchable Silicon Films on Elastomeric Substrates. References. Chapter 19: Multiscale Fabrication of Plasmanic Structures. References. Chapter 20: A Rigiflex Mold And Its Applications. References. Chapter 21: Nanoimprint Technology for Future Liquid Crystal Display. References.