Difference between revisions of "Semi gemstone-like structure"
(added link to yet unwritten page about polyine rods * graphene * nanotubes) |
(added links internal and note on external) |
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| Line 4: | Line 4: | ||
* [[graphene]] | * [[graphene]] | ||
* [[nanotube]]s | * [[nanotube]]s | ||
| − | * [[ | + | * [[polyyne rods]] |
* thin diamondoid rods that become too long in relation | * thin diamondoid rods that become too long in relation | ||
| Line 20: | Line 20: | ||
== Related == | == Related == | ||
| + | * [[Stiffness]] | ||
* [[Diamondoid compound]] | * [[Diamondoid compound]] | ||
* [[Self folding]] | * [[Self folding]] | ||
* [[Spools]] and [[kinking]] | * [[Spools]] and [[kinking]] | ||
* [[Structural elements for nanofactories]] | * [[Structural elements for nanofactories]] | ||
| + | |||
| + | == Related == | ||
| + | |||
| + | There is a metric for proteins for the length-scale they can retain a straight shape when they self-assamble into long rods. <br> | ||
| + | {{wikitodo|find that metric and link it here}} | ||
Revision as of 12:07, 9 June 2021
Stuff that exhibit at least in some dimensions diamondoid stiffness but may be quite flexible in others.
- graphene
- nanotubes
- polyyne rods
- thin diamondoid rods that become too long in relation
Bigger pieces need to be managed. Nanotubes could be transported in coil barrels (kinking radius?). (are polyine rod barrels possible?)
Less strongly meshed structures are more susceptible to radiation damage. In data storage devices there has to be made a trade-of.
Microcomponent maintenance microbots could test nanoscale cable barrels e.g. for the cable to be snapped by just scrolling it in all the way and checking for a force when the end-stop is reached.
Maybe merge with: Soft cables and sheets page.
Related
Related
There is a metric for proteins for the length-scale they can retain a straight shape when they self-assamble into long rods.
(wiki-TODO: find that metric and link it here)
