Difference between revisions of "Diamondoid solar cell"
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A direct conversion into mechanical energy might be to consider. <br> | A direct conversion into mechanical energy might be to consider. <br> | ||
['''Todo:''' how much research exists - what is missing?] | ['''Todo:''' how much research exists - what is missing?] | ||
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| + | Diamond seems to be an excellent material for solar cells. | ||
| + | [http://www.vanderbilt.edu/exploration/news/news_diamond.htm Article: Turning diamond film into solar cells] <br> | ||
| + | ['''Todo:''' better references needed] | ||
[[Category:Technology level III]] | [[Category:Technology level III]] | ||
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| + | == Related == | ||
| + | |||
| + | * '''[[Ligand field theory]]''' | ||
| + | * '''[[Mechanooptical conversion]]''' | ||
| + | * Rectenna [https://de.wikipedia.org/wiki/Rectenna (leave to wikipedia)] for optical wavelengths with nanotube diodes that are able to switch fast enough [[non mechanical technology path]] | ||
| + | * Radiation protection ([[Radiation damage]]) | ||
| + | * Photonic crystals | ||
Latest revision as of 11:59, 22 September 2022
How does one construct a solar cell material with just carbon or some abundant elements (N,O,P,S,(Fe??),..) too?
Bent graphene can be a tunable semiconductor as was found with nanotubes.
A direct conversion into mechanical energy might be to consider.
[Todo: how much research exists - what is missing?]
Diamond seems to be an excellent material for solar cells.
Article: Turning diamond film into solar cells
[Todo: better references needed]
Related
- Ligand field theory
- Mechanooptical conversion
- Rectenna (leave to wikipedia) for optical wavelengths with nanotube diodes that are able to switch fast enough non mechanical technology path
- Radiation protection (Radiation damage)
- Photonic crystals
