Difference between revisions of "Main Page"

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[[File:Snowflake1.jpg|thumb|alt=Snowflake|Image courtesy of SnowCrystals.com]]
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[[File:Bacteriophage.jpg|thumb|alt=T4 bacteriophage|Image courtesy of NSF.gov]]
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[[File:Galaxy.jpg|thumb|alt=Spiral galaxy|Image courtesy of hubblesite.org]]
  
 
Welcome to the self-assembly group wiki. The purpose of this website is to serve as a common repository for papers and articles in the field of algorithmic self-assembly, as well as a technically oriented, easy to use wiki about self-assembly topics.  Researchers in the area are invited and encouraged to contribute content including wiki articles, papers, and software.  Please email mpatitz@self-assembly.net if you are interested in contributing.
 
Welcome to the self-assembly group wiki. The purpose of this website is to serve as a common repository for papers and articles in the field of algorithmic self-assembly, as well as a technically oriented, easy to use wiki about self-assembly topics.  Researchers in the area are invited and encouraged to contribute content including wiki articles, papers, and software.  Please email mpatitz@self-assembly.net if you are interested in contributing.
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Self-assembly is the process during which a collection of relatively simple components, starting in a disorganized state, autonomously combine into a more complex structure.  During self-assembly, there is no external guidance or direction, and the self-assembling components experience only local interactions and typically obey a simple set of rules that govern how they combine.
 
Self-assembly is the process during which a collection of relatively simple components, starting in a disorganized state, autonomously combine into a more complex structure.  During self-assembly, there is no external guidance or direction, and the self-assembling components experience only local interactions and typically obey a simple set of rules that govern how they combine.
  
Self-assembling systems abound in nature, and include the formation of everything from snowflakes, to biological structures (such as viruses), to galaxies.
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Self-assembling systems abound in nature, and include the formation of everything from snowflakes, to biological structures (e.g. viruses), to galaxies.  Nature creates some of the most complex structures known using self-assembly, and we attempt to study and understand these natural systems so that we can create novel, artificial self-assembling systems.  The eventual goal is atomically precise manufacturing, in which the end products are produced so that their constituent atoms and molecules are completely positioned by design.  This promises the creation of materials which are smaller, stronger, lighter, and in possession of additional desired properties that traditional materials can't match.
  
[[File:Snowflake1.jpg|thumb|alt=Snowflake|Image courtesy of SnowCrystals.com]]
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examples...
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Pioneers in self-assembly research realized the potential for new systems to be algorithmically driven...
  
[[File:Bacteriophage.jpg|thumb|alt=T4 bacteriophage|Image courtesy of NSF.gov]]
 
  
[[File:Galaxy.jpg|thumb|alt=Spiral galaxy|Image courtesy of hubblesite.org]]
 
  
 
== Getting started ==
 
== Getting started ==

Revision as of 21:52, 3 December 2011


Snowflake
Image courtesy of SnowCrystals.com
T4 bacteriophage
Image courtesy of NSF.gov
Spiral galaxy
Image courtesy of hubblesite.org

Welcome to the self-assembly group wiki. The purpose of this website is to serve as a common repository for papers and articles in the field of algorithmic self-assembly, as well as a technically oriented, easy to use wiki about self-assembly topics. Researchers in the area are invited and encouraged to contribute content including wiki articles, papers, and software. Please email mpatitz@self-assembly.net if you are interested in contributing.

What is self-assembly?

Self-assembly is the process during which a collection of relatively simple components, starting in a disorganized state, autonomously combine into a more complex structure. During self-assembly, there is no external guidance or direction, and the self-assembling components experience only local interactions and typically obey a simple set of rules that govern how they combine.

Self-assembling systems abound in nature, and include the formation of everything from snowflakes, to biological structures (e.g. viruses), to galaxies. Nature creates some of the most complex structures known using self-assembly, and we attempt to study and understand these natural systems so that we can create novel, artificial self-assembling systems. The eventual goal is atomically precise manufacturing, in which the end products are produced so that their constituent atoms and molecules are completely positioned by design. This promises the creation of materials which are smaller, stronger, lighter, and in possession of additional desired properties that traditional materials can't match.

examples...

Pioneers in self-assembly research realized the potential for new systems to be algorithmically driven...


Getting started