Difference between revisions of "Piezochemical mechanosynthesis"

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* applies forces and torques  
 
* applies forces and torques  
 
Full positional constraint is a prerequisite for applies forces and torques.
 
Full positional constraint is a prerequisite for applies forces and torques.
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== Unnaturality of the process ==
  
 
Force applying mechanosynthesis is a rather unnatural process. [[Unnatural chemistry]] so to say. <br>
 
Force applying mechanosynthesis is a rather unnatural process. [[Unnatural chemistry]] so to say. <br>
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But anything there is minute compared to the magnitude of forces and torques that <br>
 
But anything there is minute compared to the magnitude of forces and torques that <br>
 
will be involved in force applying mechanosynthesis will use.
 
will be involved in force applying mechanosynthesis will use.
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== Where force applying mechanosynthesis will be performed ==
  
 
This would be performed in the [[molecular mills]] of future [[gem-gum factories]]. For:
 
This would be performed in the [[molecular mills]] of future [[gem-gum factories]]. For:

Revision as of 11:16, 9 April 2021

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

This kind of mechanosynthesis:

  • is fully positionally constrained
  • applies forces and torques

Full positional constraint is a prerequisite for applies forces and torques.

Unnaturality of the process

Force applying mechanosynthesis is a rather unnatural process. Unnatural chemistry so to say.
Some natural enzymes may be able to provide sufficient positional constraint such
that some small forces and torques are involved in bond reconfigurations.
But anything there is minute compared to the magnitude of forces and torques that
will be involved in force applying mechanosynthesis will use.

Where force applying mechanosynthesis will be performed

This would be performed in the molecular mills of future gem-gum factories. For:

Factors influencing expectable throughput

Factors increase throughput:

  • The forces and torques allow to massively speed up chemical reactions.
  • The forces and torques make almost all attempts for reaction succeed unlike normal chemistry where its often more the reverse.

Factors decrease throughput:

  • Unavoidably fat fingers reduce the number of reaction sides per volume compared to natural chemistry.
  • Slow down of machinery speeds at the smallest scales to reduce dynamic friction in the many superlubricating nanoscale bearings.

While decreased spacial reaction site density cancels out with the increased temporal reaction frequency quite a bit
it is still important to keep the individual assembly cells (as in: volume per active reaction site) as small as possible.
This leads to a hard coded standard part factory line manufacturing design as the natural chice for the lowest assembly level.