Mechanosynthesis mode: Difference between revisions
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=== Ground access (breaking) === | === Ground access (breaking) === | ||
'''Big issue: Loss of access to the workpiece building ground | '''Big issue: Loss of access to the workpiece building ground:''' <br> | ||
As soon as one builds up vertically higher than the adapter molecules <br> | As soon as one builds up vertically higher than the adapter molecules <br> | ||
one permanently loses access to ground reference | one permanently loses access to ground. | ||
A) Looses the capability to use the ground as quick reliable STM ground height reference. <br> | |||
Especially problematic if the build up structure are fully insulating such that <br> | Especially problematic if the build up structure are fully insulating such that <br> | ||
at their tops STM becomes impossible leaving only higher resolution but much slower qPlus nc-AFM. | at their tops STM becomes impossible leaving only higher resolution but much slower qPlus nc-AFM. | ||
Eventually all adapter molecules interactions are possible exclusively with the growing in height workpiece and noting else. <br> | B) Eventually all adapter molecules interactions are possible <br> | ||
Thus there can be no off workpiece site activity | exclusively with the growing in height workpiece and noting else anymore. <br> | ||
'''no sourcing feedstock from the surface''' | Thus there can be no off workpiece site activity. <br> | ||
* '''no sourcing feedstock directly from the surface''' | |||
* no off site tip cleaning, fixing, in-situ-building | |||
* no off site waste dumping | |||
* and such | |||
== Direct mode / Conventional mode == | == Direct mode / Conventional mode == | ||
Revision as of 15:05, 3 January 2026
Inverted mode mechanosynthesis:
Using adapter molecules on the sample side to deposit pre-ladden feedstock molecules to the SMP-needle-tip-apex.
Direct mode mechanosynthesis:
Using the reactive SPM-tip-apex-tool-molecule-mechanophore to …
– pick feedstock molecules from pre-ladden feedstock-carrier-molecules on the sample (or directly from the sample) and then
– deposit feedstock molecules to a workpiece on the sample side.
Inverted mode
- adapter-molecules can't be avoided as inverted mode means the SPM-needle-tip-apex is a big flat mesa
- may suffer in regards to reproducibility as every tool is a new situation that might bind differently to the surface.
- more challenging tip preparation in regards to tip orientation for nigh perfect parallelity, and system cleanliness
- no (or extremely limited) options in terms of interacting with heterogeneous surface molecular systems of various kinds
Dilute adapter molecule deposition constraint and consequences
Adapter molecules need to be hugely spaced out
such that only ever a dingle adapter molecule interacts with the huge fat intentionally blunt tip apex.
Long range motions become especially problematic with drift & creep.
Even if these get assively reduced by toecnological progress (e.g. LiNbO3 based actuators) …
– present a stronger speed bottleneck in processed-atoms-per-second. (TODO: how much lower?)
– pose a smaller ultimate limit for the atom count of the locally made product (TODO: how much smaller?)
Adapter molecule types and locations
In the case of the inverted mode the tool-molecules and
the feedstock-carrier-molecules coincide. They are the same and on the side of the flat "sample".
Ground access (breaking)
Big issue: Loss of access to the workpiece building ground:
As soon as one builds up vertically higher than the adapter molecules
one permanently loses access to ground.
A) Looses the capability to use the ground as quick reliable STM ground height reference.
Especially problematic if the build up structure are fully insulating such that
at their tops STM becomes impossible leaving only higher resolution but much slower qPlus nc-AFM.
B) Eventually all adapter molecules interactions are possible
exclusively with the growing in height workpiece and noting else anymore.
Thus there can be no off workpiece site activity.
- no sourcing feedstock directly from the surface
- no off site tip cleaning, fixing, in-situ-building
- no off site waste dumping
- and such
Direct mode / Conventional mode
Adapter molecules are still needed here too as it turned out (lack of experimental progress despite attempts)
that without all the aforementioned advantages
it is virtually impossible to build larger multi layered crystalline atomically precise structures.
No tool swaps
Note that the SMP-needle-tip-apex is of a quite sharp tip is still sizable (e.g. ~20nm radius).
It might not be all that much smaller than the one for inverted mode.
Big difference: Having jut one single tool on the SPM-needle-top-apex allows one to
(in principle) pack the resouce-carrier-molecules as tight as it is physically possible.
Which should translate into a massive advantage in terms of shorter necessary motion lengths
and overall accessible quantity of resources.
There is no obvious easy way to swap out the tool-molecule for an other one.
- Attempting slight rotations brings the problem of getting the rotation axis exactly running through the SPM-needle-tip-apex.
- swapping out the entire needle brings the problem of finding the same nanoscale spot again.
- Ripping of the tool-molecule and picking up a new one all in situ partly defeats the purpose of adapter molecules (it breaks repeatability)
Possibly partial mitigation:
Near reversible near energy equilibrium tools / tool-usage could help a bit (cool tools)
But there is no easy switching between a clear high-energy-drop deposition-tool to a high-energy-drop abstraction-tool (hot tools)
Tap to fix the tip philosophy ~vs~ Switch the needle philosophy
Deep experimental practice philosophical ingrained thing:
- As of 2025 experimentalists: SPM-needle-tip-apex-structure disposable, SMP needle is not.
- Eventually for direct mode needed: SPM-needle disposable, SPM-needle-tip-apex-structure is not.
Needle-swaps becomes even more challenging in combination with …
– needle made from silicon rather than a metal coming as a thin wire.
– qPlus nc-AFM with the needle attached to the quartz tuning fork sensor (too expensive to dispose of).
=> micro 3D printed C-clip & micro automation for swapping? Two photon lithography? …
Adapter molecules types and locations
- feedstock carrier molecules (on the sample side) can be really densely packed
- the SPM tip needs to carry just one single dominant sole acting tool molecule
Ground access (preserved)
Big advantage: STM Ground reference remains accessible during build process:
No matter how high the built up structure gets
one can always still access the conductive ground level as a quick absolute height reference.
Thee is some SPM-needle-tip-apex to product folding,
but moving far enough aside (tip diameter at product height) one can unobstrutedly acess the original surface.
This capability is not present in the inverted mode.