Difference between revisions of "Electrically conductive gem-like compounds"
From apm
(Created page with "{{stub}} A subgroup of diamondoid compounds. <br> Conductive compounds in thicker layers do not let light pass but do reflect it instead. See wikipedia: [http://en.wikiped...") |
(added * Electric metamaterial * Non mechanical technology path) |
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* hematite, magnetite, pyrite, ... | * hematite, magnetite, pyrite, ... | ||
* members of the spinell mineral group with metallic conductivity | * members of the spinell mineral group with metallic conductivity | ||
+ | * some copper and lead sulfide compounds | ||
* in an AP pattern doped silicon and diamond (rather low level metamaterials than compounds) | * in an AP pattern doped silicon and diamond (rather low level metamaterials than compounds) | ||
Often high level [[diamondoid metamaterial]] might be a batter choice like crosshatched conductive nanotubes. | Often high level [[diamondoid metamaterial]] might be a batter choice like crosshatched conductive nanotubes. | ||
One direction only would let through polarized light. | One direction only would let through polarized light. | ||
+ | |||
+ | == Related == | ||
+ | |||
+ | * [[Electric metamaterial]] | ||
+ | * [[Non mechanical technology path]] |
Latest revision as of 09:54, 1 June 2021
A subgroup of diamondoid compounds.
Conductive compounds in thicker layers do not let light pass but do reflect it instead.
See wikipedia: plasma frequency
- hematite, magnetite, pyrite, ...
- members of the spinell mineral group with metallic conductivity
- some copper and lead sulfide compounds
- in an AP pattern doped silicon and diamond (rather low level metamaterials than compounds)
Often high level diamondoid metamaterial might be a batter choice like crosshatched conductive nanotubes. One direction only would let through polarized light.