Difference between revisions of "Atomically precise disassembly"
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| + | In advanced atomically precise manufacturing systems the capability of general atomically precise disassembly is not a necessity. | ||
In contrast to [[mechanosynthesis]] atom by atom disassembly is a much harder problem. | In contrast to [[mechanosynthesis]] atom by atom disassembly is a much harder problem. | ||
Revision as of 07:49, 3 October 2015
In advanced atomically precise manufacturing systems the capability of general atomically precise disassembly is not a necessity. In contrast to mechanosynthesis atom by atom disassembly is a much harder problem.
Disassembly of diamondoid products
When atoms are placed into e.g. a stable diamondoid crystal lattice they form multiple bonds. To get them out again one would need to bind them even stronger to the tooltip. But thats (seems) not possible anymore since there are no single bonds that bind stronger than three carbon-carbon bonds (maybe a counterexample with silicon [1]). So once placed in most cases the atom stays stuck until the whole part in which it resides in gets burnt. (See: Diamondoid waste incineration) With materials that have weaker bonds and or are more loosely meshed one might have more luck disassembling but there are other problems.
Disassembly of natural products
For materials with low diamondoidivity (e.g. chain polymeres, metals alloys) cryogenic temperatures are needed so that everything stays put.
Many natural materials are very unordered, have some of their atoms diffusing around and they also have crystal defects making it necessary to scan the surface and have a plan for every possible situation which might occur. A very difficult problem way beyond the scope of in relation simple APM attainment projects.
To simplify matters preceding conventional thermal processing methods may help a lot. Usually the goal is to get only a view types of rather small molecules. (See: Diamondoid waste incineration) Those preprocessing devices may also be subject to improvement and miniaturisation from the megascale to the meter scale. (Better thermal isolation, higher pressure capacity, ...)
Example applications
- APM aided oil refinement: refining crude oil on a much smaller (but not nano) scale
- waste water treatment - a device locally in your own basement - also not partly not operating way above nanoscale.
- handling of crude substances in general - mining - old aluminum - ...
- recycling
