Bootstrapping methods for productive nanosystems: Difference between revisions
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* Degree of introduction of positional assembly aspects | * Degree of introduction of positional assembly aspects | ||
See: [[Thermally driven assembly]] | See: | ||
* [[Thermally driven assembly]] | |||
* [[Expanding the kinematic loop]] | |||
== Related == | == Related == | ||
Revision as of 20:43, 26 March 2021
Available methods for getting towards the necessary parallelity to produce macroscopic amounts of products
- bottom up: fully parallel (and hierarchical) self assembly of atomically precise chemically pre-produced building blocks
- top down: conventional photolithographic methods (MEMs)
- exponential assembly (the glue in the middle?)
- compact self replication (outdated)
- self emerging highly distributed self-replicative capabilities
Bottom up
There are at least three independent orthogonal axes where technological capability can be judged by and scaled along. These are:
- Convergent selfassembly levels
(like experimentally demonstrated in SDN: bricks to blocks then blocks to multiblocks) - Material stiffness
(SDN, protein, stiffer stuff) - Degree of introduction of positional assembly aspects
See: