Self Assembly

Self Assembly: The Science of Things That Put Themselves Together

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ISBN 9781584886877
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Features

  • Presents a self-contained, up-to-date, and interdisciplinary introduction to the emerging science of self-assembly
  • Features profiles of leading self-assembly researchers, providing a glimpse into their backgrounds, approaches, and thoughts
  • Includes instructions for simple, hands-on activities to be performed in the lab or classroom
  • Illustrates key concepts, patterns, and structures with more than 150 figures, including 14 in full color
  • Contains several exercises at the end of each chapter
  • Provides a companion website with links to the web pages and profiled individuals in the book as well as links to photos and videos of self-assembly experiments
  • Summary

    Hailed as one of the key areas of nanoscience likely to shape future scientific research, self-assembly offers the most promising route to true molecular nanotechnology. Focusing on this dynamic new field, Self Assembly: The Science of Things That Put Themselves Together explores nature's self-assembly of structures, the use of it to build engineered systems, and the latest advances in the field.

    Reflecting the inherent progress of the science of self-assembly, this definitive book first delves into natural self-assembling systems. It addresses crystal growth, soap films, and micelles; examines how nature builds viruses, proteins, and ribosomes; and introduces the protein folding problem. The author then discusses how physicists, chemists, biologists, and engineers are applying nature's principles to self-assemble everything from DNA cubes to millimeter-scale electronic circuits. The final chapters cover theoretical and experimental approaches to understand the phenomenon of self-assembly and overcome its various challenges.

    With practical activities, profiles of leading experts, chapter highlights, exercises, and references, Self Assembly provides the most current authoritative information on this exciting branch of nanoscience.

    Table of Contents

    Introduction
    Self-Assembly
    Why Now?

    THE NATURAL WORLD
    Inorganic Systems
    Introduction
    Bubble Rafts
    Crystallization
    Polymerization
    Micelles

    Organic Systems
    Introduction
    Proteins and Protein Folding
    The Tobacco Mosaic Virus
    The Ribosome

    Lessons from the Natural World
    Introduction
    The Bubble Raft and Nature's Principles
    Other Aspects of Nature's Motif

    ENGINEERED SYSTEMS
    The "Cheerios Effect" and Other Simple Systems
    Introduction
    The Penrose Model
    Magnetic Self-Assembling Systems
    The "Cheerios Effect"

    Static Self-Assembly
    Introduction
    Assembly via Capillary Forces
    Template Driven Self-Assembly
    Structured Surfaces
    Assembly by Folding

    Dynamic Self-Assembly
    Introduction
    A Prototype for Dynamic Self-Assembly
    Magnetically Driven Dynamic Systems
    Mechanically Driven Dynamic Systems
    Self-Propelled Systems
    Smart Particles

    DNA Self-Assembly
    Introduction
    DNA-Nature's Ultimate Building Block
    Cubes and Other Polyhedra
    DNA Tiles
    DNA Barcodes
    DNA Origami
    DNA as a Template
    DNA Self-Assembly in Context

    THE FUTURE
    Models of Self-Assembly
    Introduction
    Physical Models
    Abstract Models

    Directions
    Introduction
    Fibonacci at the Nanoscale
    Self-Assembly Springs into Action
    Self-Assembled Swimming Cells
    Self-Assembly Goes Broadway
    Self-Assembly and the Origin of Life

    Color Plates

    References

    Appendix A: The Calculus of Variations
    Appendix B: Useful Web Sites
    Appendix C: Glossary

    Index

    Chapter Highlights, Exercises, Related Reading, and Notes appear in every chapter.

    Editorial Reviews

    "[The book] is really very beautiful. It is a fantastic list of disparate topics that are all elegantly organized around the theme of self assembly. [The author has] managed to put together a coherent story starting with simple physical effects, such as surface tension and bubble rafts, to organic systems like the tobacco mosaic virus and the ribosome to the Cheerios effect (for those of us who like breakfast cereal!). This is then elegantly connected to George Whiteside's engineered Cheerios effect, to magnetic self assembly and finally ending with very recent work on DNA self assembly-including even the latest work out of Winfree's lab! It is really terrific. I had not considered how powerful a course about self assembly would be before I saw how [the author] put everything together in [this] book."
    -Dr. Michael P. Brenner, Glover Professor of Applied Mathematics and Applied Physics, Harvard University,
    Cambridge, Massachusetts, USA

    "Self-assembly is an exploding field, the basis of both biological systems and the most advanced nanotechnologies. Self Assembly offers the reader a unique guide: it spans scales ranging from molecular to macroscopic, levels of complexity ranging from simple crystals to systems that compute, and modes of understanding ranging from equations to experiments with floating soda straws. It's the best introduction I've seen."
    -Dr. K. Eric Drexler, author of Nanosystems: Molecular Machinery, Manufacturing, and Computation

    "This text of John Pelesko's is a wonderful introduction to the emerging field of self assembly. Self assembly is an important field to be informed about at this time, in part because it is critical to the science and engineering of nanostructures and nanodevices constructed on scales below the limits of conventional top-down methodologies such as lithography. He manages superbly to impart to the reader the excitement of the ongoing research in this quickly evolving and highly interdisciplinary field. The text ranges over a wide variety of topics, including the impact of self assembly to nanoscience, chemistry, biochemistry, physics, material science, and robotics. It covers a number of recent revolutionary breakthroughs in self assembly, demonstrating the self assembly of complex and richly patterned nanostructures. The text would be essential reading to anyone in these fields, as well as to anyone with a curiosity about the basic processes that are used by nature to assemble the most complex things we know about in the universe-ourselves."
    -John H. Reif, A. Hollis Edens Distinguished Professor of Computer Science, Duke University, Durham, North Carolina, USA