Tether assisted self assembly: Difference between revisions
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Up: [[Tether assisted assembly]] | |||
The idea is basically [[self folding]] but guiding larger beads on a string for: | |||
* quicker rates of selfassembly | |||
* more site selective self-assembly | |||
Just as in [[self folding]] enforced local proximity leading to <br> | |||
higher local [[effective concentration]] and thus to higher reaction rates. <br> | |||
With some tricks (protection & deprotection, avoiding [[One-pot self-assembly]] going for sequential methods, …) <br> | |||
it may be also usable to constrain the binding space much like in the case of <br> | |||
[[tether assisted positional assembly]] ([[mechanosynelf assembly]]) <br> | |||
== Related == | |||
* [[Tether assisted assembly]] | |||
* [[Incremental path]] | |||
* [[Self assembly]] & [[Thermally driven self assembly]] | |||
[[Category: Incremental path]] | |||
Revision as of 08:32, 30 April 2026
The idea is basically self folding but guiding larger beads on a string for:
- quicker rates of selfassembly
- more site selective self-assembly
Just as in self folding enforced local proximity leading to
higher local effective concentration and thus to higher reaction rates.
With some tricks (protection & deprotection, avoiding One-pot self-assembly going for sequential methods, …)
it may be also usable to constrain the binding space much like in the case of
tether assisted positional assembly (mechanosynelf assembly)