Difference between revisions of "Thermally driven self assembly"

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(Possible sub-classifications: some cleanup)
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== Possible sub-classifications ==
 
== Possible sub-classifications ==
  
* self-folding
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* [[self folding]]
* self-finding
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* [[self finding]]
 
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* [[iterative self-assembly]]
 
* [[iterative self-assembly]]
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* self-assembly of floppy foldamer chains at the first [[selfassembly level]]
 
* self-assembly of floppy foldamer chains at the first [[selfassembly level]]
* self-assembly of stiff pre-self-assembled tiles at the second assembly level
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* self-assembly of stiff pre-self-assembled tiles at the second [[selfassembly level]]
  
{{wikitodo|what are the overlaps and differences}}
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{{wikitodo|what are the overlaps and differences}} <br>
 
{{wikitodo|what are advantages and limitations}}
 
{{wikitodo|what are advantages and limitations}}
  

Revision as of 01:53, 16 March 2021

This article is a stub. It needs to be expanded.

Thermally driven assembly is also called called self assembly or brownian assembly (seldom)
(TODO: Add minimal definition)

  • Today thermally driven assembly is already extensively used (e.g. structural DNA nanotechnology) this will continue onward into the early stages of the development of atomically precise manufacturing (APM).

Beside the actual function of the building block (structural element / machine element) completely unguided thermally driven assembly requires the building blocks to be have a unambiguous unique puzzle piece shape that completely determines its target position. (everything that can stick will stick)

  • Brownian assembly is generally slower then advanced directed assembly like mechanosynthesis. (numbers needed)
  • The ambient temperature dictates diffusion speed.
  • Lower dimensionality that is diffusion on a surface instead of a volume or on a line instead of a surface speeds up the process.
  • Dividing one long diffusion path to several shorter irreversible diffusion transport stretches speeds up the process.

Possible sub-classifications



(wiki-TODO: what are the overlaps and differences)
(wiki-TODO: what are advantages and limitations)

Related

External links

There's huge amount of literature on thermally driven assembly.