One-pot self-assembly: Difference between revisions
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just a minimal stub for now |
basic page |
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* faster process | * faster process | ||
* less control | * less control | ||
* ... {{wikitodo|expand here}} | |||
== Artificial == | |||
A good part of artificial selfassembly is still done as one-pot reactions.<br> | |||
Notable exception are demonstrations og hierarchical assembly with [[structural DNA nanotechnology]].<br> | |||
== In nature == | |||
Nanobiology averts full-on one-pot self-assembly by compartmentalizations | |||
* disjunct surfaces (lipid walls) | |||
* disjunct volumes (verticles enclose by lipid walls) | |||
* means of transport inbetween | |||
== Related == | == Related == | ||
The complement to one-pot self-assembly is [[iterative self-assembly]] | The complement to one-pot self-assembly is [[iterative self-assembly]] | ||
Revision as of 16:58, 13 May 2022
As the name implies all ingredients are mixed together simultaneously "in one pot".
- faster process
- less control
- ... (wiki-TODO: expand here)
Artificial
A good part of artificial selfassembly is still done as one-pot reactions.
Notable exception are demonstrations og hierarchical assembly with structural DNA nanotechnology.
In nature
Nanobiology averts full-on one-pot self-assembly by compartmentalizations
- disjunct surfaces (lipid walls)
- disjunct volumes (verticles enclose by lipid walls)
- means of transport inbetween
Related
The complement to one-pot self-assembly is iterative self-assembly