Difference between revisions of "In-solvent gem-gum technology"
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= Biomineralisation = | = Biomineralisation = | ||
− | [http:// | + | [http://en.wikipedia.org/wiki/Biomineralisation Biomineralisation] is the natural place to learn from. |
− | But the current research direction is focussed too much on recreation of bulk hirachically structured polypeptide mineral composite biomaterials instead of the core synthesis process which is all thats needed for technology level II. Learning from biology is not blatantly copying it. Remember with rising technology levels we want to get away from biology to gain the benefits of [[superlubrication]]. | + | But the current research direction is focussed too much on recreation of bulk [http://en.wikipedia.org/wiki/Mineralized_tissues hirachically structured polypeptide mineral composite biomaterials] instead of the core synthesis process which is all thats needed for technology level II. Learning from biology is not blatantly copying it. Remember with rising technology levels we want to get away from biology to gain the benefits of [[superlubrication]]. |
+ | List of some Minerals of interest: | ||
+ | * Silicates | ||
+ | * Pyrite | ||
+ | * Magnetide | ||
+ | * Hydroxyappatite | ||
+ | * ... | ||
Some information about Silicate systems: | Some information about Silicate systems: | ||
[http://www.foresight.org/Conferences/MNT05/Papers/Gillett1/] | [http://www.foresight.org/Conferences/MNT05/Papers/Gillett1/] | ||
[http://www.foresight.org/Conferences/MNT05/Papers/Gillett2/] | [http://www.foresight.org/Conferences/MNT05/Papers/Gillett2/] |
Revision as of 07:08, 11 February 2014
Defining traits of technology level II | |
---|---|
building method | robotic control (machine phase) |
building material | very small moieties |
building environment | liquid or gas |
Navigation | |
previous | technology level I |
products | side products of technology level II |
next | technology level III |
Overview
This Level is the most unknown yet.
By definition we have reached T.Level 1 here and have full robotic control. The task is to find blocks as tooltips with which we can build stiff covalent structures under solution. We want to switch from block resolution APM to atomically resolution APM here. Those structures then need to be able to form airtight seals or else the next and last step to vacuum will not be possible.
There are bio enzymes that do such things but it is very doubtful that those will be used. The solution for the tooltip problem for T.Level III is pretty clear by now but not the one for T.Level II.
To investigate:
- How to find methods to create stuctures with as freely choosable geometries as possible ?
- What about surface passivation? Is this not necessary here ??
- How to do mechanosynthesis for technology level III with the materials used in this level? e.g. how to mount DC10c onto a pyrite/silicate/... robotic system?
- [Todo: will vacuum housing only suffice?]
Biomineralisation
Biomineralisation is the natural place to learn from. But the current research direction is focussed too much on recreation of bulk hirachically structured polypeptide mineral composite biomaterials instead of the core synthesis process which is all thats needed for technology level II. Learning from biology is not blatantly copying it. Remember with rising technology levels we want to get away from biology to gain the benefits of superlubrication.
List of some Minerals of interest:
- Silicates
- Pyrite
- Magnetide
- Hydroxyappatite
- ...