Mechanosynthetic carbon dioxide splitting: Difference between revisions
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clarified formulation whats meant with oxygen as next element in focus |
m added * Carbon sequestration |
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* [[Carbon dioxide]] | * [[Carbon dioxide]] | ||
* [[Mechanosynthetic resource molecule splitting]] | * [[Mechanosynthetic resource molecule splitting]] | ||
* [[ | * [[Mechanosynthetic dioxygen splitting]] | ||
* [[Mechanosynthetic water splitting]] | * [[Mechanosynthetic water splitting]] | ||
* [[Learning from enzymes]] | |||
* [[Carbon sequestration]] | |||
[[Category:Technology level III]] | [[Category:Technology level III]] | ||
[[Category:Mechanosynthesis]] | [[Category:Mechanosynthesis]] | ||
== External links == | |||
Wikipedia: | |||
* [https://en.wikipedia.org/wiki/Transition_metal_dioxygen_complex Transition metal dioxygen complex] | |||
Latest revision as of 17:38, 10 November 2024
The application of atmospheric CO2 removal (see: carbon dioxide collector unit) should give a strong incentive to make oxygen the next element of interest (after carbon and hydrogen) in the direct path research. Mechanosynthetic water splitting is needed too here.
Research needed: How needs the basic nine member diamondoid mechanosynthesis toolset be extended to be able to rip CO2 apart (and use the oxygen then)?
(TODO: A detailed analysis of mechanosyntetic carbon dioxide splitting will be needed at some point. This reaction is of especial interest.)
Related
- Carbon dioxide
- Mechanosynthetic resource molecule splitting
- Mechanosynthetic dioxygen splitting
- Mechanosynthetic water splitting
- Learning from enzymes
- Carbon sequestration
External links
Wikipedia: