Difference between revisions of "Thermodynamic nanocrystal"

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m (Apm moved page Thermodynamic nanocrystals to Thermodynamic nanocrystal: plural => singular)
 
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for a targeted development towards [[gemstone metamaterial on-chip factories]]. <br>
 
for a targeted development towards [[gemstone metamaterial on-chip factories]]. <br>
 
That "thermodynamic nanocrystals" may help in some unexpected way can of course not be excluded. <br>
 
That "thermodynamic nanocrystals" may help in some unexpected way can of course not be excluded. <br>
But there are other [[places with open problems where development will most definitely yield progress]].
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But there are other [[Where to start targeted development|places with open problems where development will most definitely yield progress]].
  
 
== Related ==  
 
== Related ==  
  
* ...
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* [[Nanoparticle]]

Latest revision as of 11:56, 8 July 2021

This article is a stub. It needs to be expanded.
This article defines a novel term (that is hopefully sensibly chosen). The term is introduced to make a concept more concrete and understand its interrelationship with other topics related to atomically precise manufacturing. For details go to the page: Neologism.

Thermodynamic nanoscystals (or rather "via thermodynamic means produced nanocrystals")
shall here in this wiki refer to any sorts of nanoscale crystals produced by thermodynamic means.

Definition

Thermodynamic nanocrystals include:

For now see: Chemical synthesis
The section there on going higher dimensional in structures to assemble to avert the exponential drop in yield
discusses nanocrystals and their severe limiations.

Nanoparticle nanotech as "distraction" from focussed efforts

Because of the very limited control in overall shape, material, and atomic precision,
thermodynamic nanocrystals seem not be a good spot to put efforts in
for a targeted development towards gemstone metamaterial on-chip factories.
That "thermodynamic nanocrystals" may help in some unexpected way can of course not be excluded.
But there are other places with open problems where development will most definitely yield progress.

Related