Difference between revisions of "Spectrum of means of assembly"
From apm
(elaborated on the case of chemical synthesis) |
(→mixed assembly: added brief notes) |
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== mixed assembly == | == mixed assembly == | ||
| − | * [[site activation assembly]] | + | * [[site activation assembly]] – has been experimentally conducted |
| − | * [[wash in tip recharge assembly]] | + | * [[wash in tip recharge assembly]] – seems a lot less practical than "site activation assembly" |
| − | * [[tether assisted assembly]] | + | * [[tether assisted assembly]] – might be interesting to investigate – does not allow for piezochemistry though |
== pure positional assembly == | == pure positional assembly == | ||
Revision as of 11:03, 6 July 2021
Contents
pure self assembly
- self assembly
- odd special case: nonthermal selfassembly
Chemical synthesis
Well, sort of. Chemical synthesis is self assembling in the sense of finding its reaction partners by diffusion transport.
- Many forms of thermally driven self assembly are typically not classified as chemical synthesis.
- Chemical synthesis can be classified as a form of thermally driven self assembly.
mixed assembly
- site activation assembly – has been experimentally conducted
- wash in tip recharge assembly – seems a lot less practical than "site activation assembly"
- tether assisted assembly – might be interesting to investigate – does not allow for piezochemistry though
pure positional assembly
Unspecific (not pure self assembly)
Related
- You may actually be looking for connection mechanisms for advanced gem-gum-tec.
- One mean for atomically precise production is good old chemical synthesis. But is severely limited in product size.
