Research Catalog

Unconventional nanopatterning techniques and applications

Title
Unconventional nanopatterning techniques and applications / John A. Rogers, Hong H. Lee.
Author
Rogers, John A.
Publication
Hoboken, N.J. : Wiley, ©2009.

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Details

Additional Authors
Lee, Hong H.
Description
xv, 598 pages : illustrations; 25 cm
Summary
"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." "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."--BOOK JACKET.
Subject
  • Nanoparticles
  • Nanostructured materials
  • Nanopartikel
  • Nanoparticules > Nanostructures > Matériaux > Semiconducteurs > Déformations (mécanique) > Électronique
Genre/Form
Aufsatzsammlung.
Bibliography (note)
  • Includes bibliographical references and index.
Contents
Introduction -- Materials -- Patterning based on natural force -- Patterning based on work of adhesion -- Patterning based on light: optical soft lithography -- Patterning based on external force: nanoimprint lithography -- Patterning based on edge effects: edge lithography -- Patterning with electrolyte: solid-state superionic stamping -- Patterning with gels: lattice-gas models -- Patterning with block copolymers -- Perspective on applications -- Soft lithography for microfluidic microelectromechanical systems (MEMS) and optical devices -- Unconventional patterning methods for bionems -- Micro total analysis system -- Combinations of top-down and bottom-up nanofabricatoin techniques and their application to create functional devices -- Organic electronic devices -- Inorganic electronic devices -- Mechanics of stretchable silicon films on elastomeric substrates -- Multiscale fabrication of plasmonic structures -- A rigiflex mold and its applications -- Nanoimprint technology for future liquid crystal display.
ISBN
  • 9780470099575
  • 0470099577
LCCN
2008021425
OCLC
  • ocn228427382
  • 228427382
  • SCSB-9185714
Owning Institutions
Princeton University Library