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Systems self-assembly / edited by Natalio Krasnogor ... [et al.].

Contributor(s): Krasnogor, Natalio.
Material type: TextTextSeries: Studies in multidisciplinarity: v. 5.Publisher: Amsterdam, The Netherlands ; Boston : Elsevier, 2008Edition: 1st ed.Description: xv, 310 p., plates : ill. (some col.) ; 25 cm.ISBN: 0444528652; 9780444528650.Other title: multidisciplinary snapshots [Cover subtitle :].Subject(s): Self-assembly (Chemistry) | Molecular computersDDC classification: 003.7
Contents:
Ch. 1. Self-organised nanoparticle assemblies: a panoply of patterns -- ch. 2. Biomimetic design of dynamic self-assembling systems -- ch. 3. Computing by self-assembly: DNA molecules, polyominoes, cells -- ch. 4. Evolutionary design of a model of self-assembling chemical structures -- ch. 5. Self-assembly as an engineering concept across size scales -- ch. 6. Probabilistic analysis of self-assembled molecular networks -- ch. 7. The "programming language" of dynamic self-assembly -- ch. 8. Self-assembled computer architectures -- ch. 9. Simulation of self-assembly processes using abstract reduction systems -- ch.10. Computer aided search for optimal self-assembly systems -- ch.11. Programmable self-assembly - theoretical aspects and DNA-linked nanoparticles -- ch.12. From microscopic rules to emergent cooperativity in large-scale patterns -- ch.13. Automated self-assembling programming.
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Item type Current location Call number Status Date due Barcode
Book University of Texas At Tyler
Stacks - 3rd Floor
Q325 .S978 2008 (Browse shelf) Available 4000000000048

Includes bibliographical references and index.

Ch. 1. Self-organised nanoparticle assemblies: a panoply of patterns -- ch. 2. Biomimetic design of dynamic self-assembling systems -- ch. 3. Computing by self-assembly: DNA molecules, polyominoes, cells -- ch. 4. Evolutionary design of a model of self-assembling chemical structures -- ch. 5. Self-assembly as an engineering concept across size scales -- ch. 6. Probabilistic analysis of self-assembled molecular networks -- ch. 7. The "programming language" of dynamic self-assembly -- ch. 8. Self-assembled computer architectures -- ch. 9. Simulation of self-assembly processes using abstract reduction systems -- ch.10. Computer aided search for optimal self-assembly systems -- ch.11. Programmable self-assembly - theoretical aspects and DNA-linked nanoparticles -- ch.12. From microscopic rules to emergent cooperativity in large-scale patterns -- ch.13. Automated self-assembling programming.

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