Modular molecular composite nanosystem
Modular molecular composite nanosystems (MMCNs).
A term coined by Eric Drexler on his former blog. See link to archived page below.
This page is an interpretation/guess on the intended meaning.
Contents
General definition
- M Molecular ... atomically precise molecules (topological atomic precision or better)
rather than nanoparticles with a statistical distribution in size - M Modular ... parts are modular that is they have standard interfaces and are thus (not necessarily reversibly) composable in many different ways
rather than systems that are one-off solutions or one specific problem - C composite ... the combining of different foldamer and molecule technologies.
- N Nano ... typical size scale
- S System ... see wikipedias definiton on that
Compositeness
MMCNs are semi advanced productive nanosystems on an intermediate technology level.
They make heavy use of results of foldamer R&D such as results in:
- Structural DNA nanotechnology
- de-novo proteins and
- other synthetic small molecules ...
Degree of advancedness
MMCNs are quite low in the stack of technology levels.
They are situated at:
- End of Technology level 0
- Mainly Technology level I
- Beginning of Technology level II
Related: Technology levels & Downward inward
MMCNs are quite high up the technological capability in terms of hierarchical selfassembly.
Related: Hierarchical selfassembly & Upward outward
Motions in these systems will typically be limited to weak mechanosynthesis only. That is:
- There is more or less guided motion
- There is little to no capability to actively apply forces to accelerate reactions
On the less guided motion end of weak mechanosynthesis there is tether assisted assembly.
Which may be made use of in MMCNs.
Concrete picture(s)
Larger scale addressable grids (good termination control) Including minimal basic means for:
- actuation
- sensing
- data IO interfacing to today's macroscale systems
- internal computation (e.g. flippable operation modes)
(wiki-TODO: add graphic)
One main use for MMSNs may be the sequencing chemistry for small molecules.
E.g. catalyzing reactions is a specified sequence (sensing molecules is much easier than catalysis as catching and binding is a sub problem to doing reactions)
perhaps somewhat programmable.
MMCNs could also transport and place bigger blocks mainly by exploiting thermal motion (thermal nonequilibrium feynman ratches)
Though, transporting bigger blocks and semi-positionally assembling them to even bigger structures (microns to visible scales and beyond)
may be more closely related to what on this wiki will be called the Robo approach.
Usage of tethers
For now see section about tethers on page:
System complexity scaling with self-assembly
Limitations
Main limitation
More advanced materials beyond foldamers are out of reach for MMCNs due to
the lack of means for suppression of thermal motions in stronger mechanosynthesis based on more advanced materials.
A chicken egg problem. Yes. Needs a look in more details to spot resolvability.
MMCNs are early in the bootstrapping towards gem-gum technology.
Specifically they are early on the gem side of gem-gum.
See: Bootstrapping atomic precision & Downward inward in expanding the kinematic loop
Minor limitations
- Effective concentration can only be increased by steric constraints increasing encounter rates by spacial proximity.
- Effective concentration can not be increased by applied forces as this is not yet possible.
MMCN's will be slower lower throughput
Delineation
Unlike systems more advanced in the technology levels
these early systems are likely much more voluminous and
perhaps even fully free floating rather that a thin layer firmly anchored onto a chips surface.
These systems could be called "nanofactories" of "foldamer nanofactories" but not
"gemstone metamaterial (gem-gum) nanofactories".
Related
- Eric Drexler's blog partially dug up from the Internet Archive
- Advanced productive nanosystems
- Robo approach
- Kind of analogy along the incremental path:
Early diamondoid nanosystem pixel (direct path)
- Foldamer printers could be part of MMCNs.
External links
- 2008-11-10 from Eric Drexlers blog: Modular Molecular Composite Nanosystems